JP2010275858A - Various energy conservation cycle combined engine - Google Patents

Various energy conservation cycle combined engine Download PDF

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JP2010275858A
JP2010275858A JP2009113235A JP2009113235A JP2010275858A JP 2010275858 A JP2010275858 A JP 2010275858A JP 2009113235 A JP2009113235 A JP 2009113235A JP 2009113235 A JP2009113235 A JP 2009113235A JP 2010275858 A JP2010275858 A JP 2010275858A
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geothermal
heat
turbine
water
accelerating
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Hiroyasu Tanigawa
浩保 谷川
Kazunaga Tanigawa
和永 谷川
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/10Geothermal energy

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Abstract

<P>PROBLEM TO BE SOLVED: To drive out the existing power generation to prevent global heating by increasing electric-generating capacity to 1,700 times the existing steam turbine power generation by water gravity geothermal power generation. <P>SOLUTION: When the water gravity geothermal power generation is performed and vertical whole moving blade water gravity turbines are respectively driven by water overheated steam acceleration, compressed air acceleration and the like, power having the same speed and the same volume as the atmospheric pressure is set to be 1,700 times the existing steam turbine power generation, gravity acceleration is accelerated vertically downward, and the electric-generating capacity obtained by driving a water speed turbine with a head increased to 1,000 m or the like is increased. Thereby, the electric-generating capacity in the existing world is decupled by operating water gravity geothermal power generation, solar power generation or the like. Consequently, anybody can cooperatively and easily achieve various automobiles and various ships driven by storage batteries and all-electric homes and electrification of plants driven by electricity by extremely inexpensive water gravity power generation, CO2 emissions are reduced, a rise in sea temperatures is reduced to zero, the global heating is prevented by abolishing the existing thermal and nuclear power generation, and extermination of mankind is postponed. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

異常気象の最大原因が海水表面温度7度C上昇の場合、人類絶滅が急接近するため、既存の火力発電所と原子力発電所を50年以内に全廃する必要が発生し、最悪の人類絶滅に早期対応が重要です。地球最大加速が重力加速度で最大熱量が太陽光で2番熱量が地熱で最大資源が水です。又熱ポンプで使用電力の3〜5倍の熱エネルギが得られるため、地熱空気加熱器2zにより空気温度を100〜200度前後に加熱し、水重力駆動のタービン駆動熱ポンプ1Gで圧縮の熱製造にして、燃料費0で3〜5倍の熱製造+3〜5倍の冷熱製造無限継続が可能なため、水重力真空駆動の竪型全動翼水重力タービン8G選択駆動とし、水重力圧縮空気熱量と質量駆動の竪型全動翼水重力タービン8G2種類駆動の、3種類選択駆動の地熱空気加熱器2zにして、地熱空気加熱器2zを公知のボーリングマシン掘削穴に挿入加熱した空気28aを回収し、3種類タービン駆動多数の熱ポンプ1Gで吸入圧縮800〜1200度圧縮空気28aにして、圧縮熱回収器2Cで熱交換過熱蒸気50(温熱)+圧縮空気28a質量(冷熱)(酸化剤)に分割保存し、繰り返し熱ポンプ1Gで圧縮1200前後にして熱交換する熱製造を繰り返して、熱製造の過程で燃料噴射燃焼し、300度前後24〜400MPa燃焼ガス49+500度前後24〜400MPa過熱蒸気50を増大して、海水温度上昇0CO2排気僅少で発電量や温熱と冷熱回収量増大を狙う、実験最良エンジンに移行する水重力地熱発電技術に関する。   When the greatest cause of abnormal weather is an increase in sea surface temperature of 7 ° C, the extinction of mankind will be approaching rapidly, so it will be necessary to abolish existing thermal power plants and nuclear power plants within 50 years, resulting in the worst human extinction Early response is important. The maximum acceleration of the earth is gravitational acceleration, the maximum heat is sunlight, the second heat is geothermal, and the maximum resource is water. In addition, since heat energy of 3 to 5 times the electric power used can be obtained with the heat pump, the air temperature is heated to around 100 to 200 degrees by the geothermal air heater 2z, and the heat of compression by the turbine driven heat pump 1G driven by water gravity. Because it is possible to produce 3 to 5 times more heat production and 3 to 5 times more cold production with no fuel cost, it is possible to select a vertical gravity blade driven water gravity turbine 8G with water gravity vacuum drive and water gravity compression The air 28a is obtained by inserting and heating the geothermal air heater 2z into a well-known boring machine excavation hole, using a geothermal air heater 2z of three types of selective driving, which is driven by two types of vertical-type full-blade water gravity turbine 8G driven by the amount of air heat and mass. The three-turbine drive multiple heat pumps 1G make compressed air 800-1200 degree compressed air 28a, and the compressed heat recovery unit 2C heat exchange superheated steam 50 (hot) + compressed air 28a mass (cold) (oxidation) ) Is repeatedly stored and repeatedly heat-exchanged with a heat pump 1G at around 1200, and heat exchange is repeated, and fuel is injected and burned in the course of heat production, and is overheated at around 300-degree 24-400 MPa combustion gas 49 + 500-degree around 24-400 MPa The present invention relates to a hydrogravity geothermal power generation technology that shifts to the best engine for experiment, aiming to increase power generation amount and heat and cold recovery amount by increasing steam 50 and increasing seawater temperature 0CO2 exhaustion.

圧縮空気28a質量(冷熱)(酸化剤)は圧縮熱回収器2Cで燃料噴射燃焼熱交換し、過熱蒸気50製造量の大幅な増大と質量の増大を選択可能にして、竪型全動翼水重力地熱タービン8G3種類を選択駆動とし、水を400MPa等水噴射ポンプ6zで3種類タービン翼温度管理のタービンに噴射して、水重力真空加速+水重力過熱蒸気加速+水重力圧縮空気加速の追加とし、タービン翼を100〜300度等最適温度に電気加熱して水の転がり接触として、3種類竪型全動翼水重力タービン8G回転出力を増大し、大気圧同速度同容積仕事率kg重m/秒を、既存蒸気タービン発電の1700倍水発電量にして、圧縮空気質量利用熱量利用真空利用3種類の竪型全動翼水重力タービン8Gを駆動にし、全自動加工可能に段落毎同径略同形として嵌合ボルト組立にして、限り無く多段に設けて落差を増大の過程でタービン間に横軸1hを具備し、横軸1h発電機1や横軸1h熱ポンプ1Gを角型タービン外箱77a外で直角駆動して、3種類竪型全動翼水重力タービン8Gの回転方向を交互にして振動や騒音を相殺し、水の発電量や地熱の回収利用無限狙いにして、排気の過程では質量駆動タービンの排気や水で、熱量駆動タービンの排気や真空駆動タービンの排気を冷却し、実験最良タービンに移行するタービン翼温度管理の水重力地熱発電技術に関する。   Compressed air 28a mass (cold heat) (oxidant) is exchanged by the fuel injection combustion heat in the compressed heat recovery unit 2C, so that it is possible to select a significant increase in the amount of superheated steam 50 produced and an increase in mass, so Three types of gravity geothermal turbines 8G are selectively driven, and water is injected into a turbine with three types of turbine blade temperature control by a water injection pump 6z of 400 MPa, etc., and addition of water gravity vacuum acceleration + water gravity superheated steam acceleration + water gravity compressed air acceleration The turbine blades are electrically heated to an optimum temperature such as 100 to 300 ° C. to make rolling contact with water, increasing the rotational output of the three types of all-type blade dynamic gravity turbine 8G and increasing the atmospheric pressure, the same speed, and the same volumetric power kg Set m / sec to 1,700 times the amount of water generation of existing steam turbine power generation, use compressed air mass utilization heat quantity vacuum utilization three types of vertical rotor blade water gravity turbine 8G as drive, and fully automatic processing is possible for each paragraph Approximate diameter Assembling bolt assembly, infinitely provided in multiple stages, the horizontal axis 1h is provided between the turbines in the process of increasing the head, and the horizontal axis 1h generator 1 and the horizontal axis 1h heat pump 1G are connected to the rectangular turbine outer casing. Drive at right angles outside 77a, and alternately rotate the rotation direction of the three types of vertical rotor blades water gravity turbine 8G to cancel vibrations and noise, aiming at unlimited use of water generation and geothermal recovery, exhaust process Then, it relates to the hydrogravity geothermal power generation technology of turbine blade temperature control that cools the exhaust of the heat drive turbine and the exhaust of the vacuum drive turbine with the exhaust of the mass drive turbine and the water, and moves to the best turbine of the experiment.

後追いエンジン発明阻止のため、高校や大学で既存エンジンを理論最良エンジンと徹底的に騙しており、小学校理科に戻って理論最良エンジンを考えると、出力や仕事率の単位がkg重m/秒等重量×速度のため、重い物質を高速度にして回転出力発生が理論最良エンジンです。更に火力原子力発電の海面温度7度上昇は環境に影響皆無と騙しており、これも騙しが明白で海面温度7度上昇を100年続け、原子力発電でCO2排出量を低減しても、海水表面温度7度上昇海域が10%成長で1000倍を超えるため、旱魃や豪雨や風速を10倍の300m/秒台風や季節風として南極の氷を0に近付け、陸と海の食糧が0に近付き、人類が絶滅する背景があります。火力原子力発電では海面温度7度上昇は環境に影響皆無と騙しており、日本近海の海藻類や魚類が絶滅に近付くテレビ報道が実際です。IPCC北極予測も海面温度7度上昇がコンピュータ計算外のため、衛星07年観測北極海海氷面積がIPCC第4次報告書の40年後に近い状態で観測された報道があり、IPCC予測全部を大誤報と考えるのが良く、平均的に1度温度上昇しても異状気象は困難で、90%前後が海面温度7度上昇と考えると、100年前後で海面温度2〜3回上昇14〜21度上昇海域が南極に接近し、南極の氷が0に近付き、海面上昇が77mに近付く背景があります。   In order to prevent the invention of the follow-up engine, the existing engine is thoroughly deceived as a theoretical best engine in high school and university. When returning to elementary school science and thinking about the theoretical best engine, the unit of output and work rate is kg weight m / second, etc. Due to the weight x speed, it is the theoretical best engine that generates heavy output at a high speed with heavy substances. Furthermore, a 7 degree rise in sea surface temperature of thermal nuclear power generation is believed to have no impact on the environment, and this is obvious, even if the sea level temperature rises 7 degrees for 100 years and CO2 emissions are reduced by nuclear power generation, Because the sea area where the temperature rises by 7 degrees exceeds 1000 times by 10% growth, Antarctic ice is brought close to 0 as a 300m / second typhoon or seasonal wind that is 10 times higher than drought, heavy rain, and wind speed, and land and sea food approaches 0, There is a background to the extinction of mankind. With thermal nuclear power generation, a 7-degree rise in sea surface temperature is said to have no impact on the environment, and TV reports that seaweeds and fish near Japan are nearing extinction are actual. In the IPCC Arctic prediction, since the sea surface temperature rise of 7 degrees is out of the computer calculation, there is a report that the Arctic sea ice area observed in 2007 was close to 40 years after the IPCC Fourth Report. It is good to think of it as a big misinformation, and even if the temperature rises by 1 degree on average, abnormal weather is difficult, and if about 90% thinks that the sea surface temperature will rise by 7 degrees, the sea surface temperature will rise 2-3 times around 100 years 14 ~ There is a background in which the sea area rising 21 degrees approaches the South Pole, the Antarctic ice approaches 0, and the sea level rise approaches 77m.

出力や仕事率の単位がkg重m/秒等重量×速度のため、重い物質を重力加速度加速にして回転出力を発生するのが理論最良エンジンですが、考えた痕跡が皆無という背景があります。そこで消費燃料0液体金属の重力発電にし、大気圧同速度同容積仕事率kg重m/秒を1〜2.3万倍水仕事率にして、水銀・液体鉛・液体ビスマス・液体錫・液体カドミウム・液体インジウム・液体ガリウム・液体亜鉛・液体タリウム等合金を含む液体金属や水を垂直下方に重力加速度加速にすると、低速で落差を増大する入力より重力加速度加速だけでも出力発生は大幅に増大し、燃料費0の熱製造を追加した出力として、タービンの多数化+落差を1000m以上に増大限り無く出力を増大できる背景があります。地球での最大加速が重力加速度で無限大に近く、海水温度上昇0やCO2排気0や燃料費0の理論最良エンジン重力発電として、化石燃料等限りある資源が枯渇するため、限りある資源を子孫に残す手段の温熱や冷熱の回収利用無限大や無限大に近い発電量とし、重力発電蓄電池駆動や電気駆動の、各種自動車類全盛や各種船舶類全盛や全面電化住宅全盛等、極端に安価な発電の蓄電池駆動や電気駆動の地球温暖化防止が得られる背景があります。   Since the unit of output and power is kg weight m / sec, equal weight x speed, the best engine theoretically generates a rotating output by accelerating gravitational acceleration of heavy substances, but there is a background that there is no trace of thought. Therefore, gravity power generation of zero fuel consumption liquid metal, atmospheric pressure, same speed, same volumetric power, kg weight m / second, 1 to 23,000 times water power, mercury, liquid lead, liquid bismuth, liquid tin, liquid When liquid metal or water containing alloys such as cadmium, liquid indium, liquid gallium, liquid zinc, and liquid thallium is accelerated vertically to gravity acceleration, the output generation is greatly increased by gravity acceleration alone rather than the input that increases the head at low speed. However, as an output that adds heat production with no fuel cost, there is a background that can increase the output without increasing the number of turbines + the head to 1000m or more. Since the maximum acceleration on the earth is almost infinite in terms of gravitational acceleration, and the theoretical best engine gravity power generation with zero seawater temperature rise, zero CO2 exhaust, and zero fuel cost, fossil fuels and other limited resources are depleted, so limited resources are descended Recovering and using heat and cold as the means to leave the power generation amount is infinite or nearly infinite, and it is extremely inexpensive, such as gravitational power storage battery drive and electric drive, various types of automobiles, various types of ships, and full-scale electrified houses There is a background that can be used to prevent global warming by driving electric storage batteries and driving electricity.

外れて欲しい予想は、中国が10%成長を50年続けると海水温度上昇量が現在の32倍になり、日本の季節風が50〜80m/秒となって国土全部が海水に汚染され、農業と緑が壊滅して餓死者続出が類似世界に拡大する可能性があり、今の雇用不安も小泉総理に再三予想を提供の日本大企業80%前後ゴーストタウン化が始まったのではと心配、危機をチャンスにする知恵が必要です。昭和17〜18年に理論最良エンジンの発明を決意実際は改良から始め、昭和38年岡山地方発明センターの請負で試作を開始して、自分でも試作を続けましたがエンジンの試作は非常に困難です。そこで昭和57年2月より国内大企業等多数にご協力のお願い始めましたが、日本企業等の協力が皆無で、外国唯一お願いしたクリントン大統領の協力がお願いの都度3年3回得られ、1992年米国特許5133305号、1993年米国特許5230307号、1995年米国特許5429078号の駄目発明が判明したのです。既存のエンジンに致命的な欠点が非常に多く改良発明不可能が判明し、急がば回れと1997年ホームページを開設して欠点を1つ改良特許出願して、2008年理論最良エンジンに到達し、元大統領の協力により、例えば液体金属重力太陽熱発電により燃料費0で発電機及び熱ポンプを駆動して、無限大に近い電気及び温熱と冷熱を極端に安価製造タービン駆動可能とし、500°C以下液体金属重力発電で、大気圧同速度同容積仕事率を既存蒸気タービン発電の1〜2.3万倍にして、実際に実験して実験最良エンジンに移行したいのです。   The expectation is that if China continues to grow at 10% for 50 years, the rise in seawater temperature will be 32 times the current level, and the Japanese seasonal wind will be 50-80 m / sec. Concerns about the start of ghost towns around 80% of large Japanese companies that provide the prospect of Prime Minister Koizumi again with the fear that employment will continue to spread to a similar world due to the destruction of greenery. We need wisdom to make a chance. Decided to invent the theoretical best engine in 1958 and 1980. Actually started with improvements, started the prototype at the Okayama Regional Invention Center in 1963, and continued to make the prototype myself, but the engine prototype was very difficult. . Therefore, in February 1982, we started requesting cooperation from a large number of domestic large corporations, etc., but there was no cooperation from Japanese companies, etc., and every time we asked for the cooperation of President Clinton, the only request from foreign countries, three times a year, The 1992 US Patent 5133305, 1993 US Patent 5230307, and 1995 US Patent 5429078 were found to be useless. There were so many fatal faults in the existing engine that it was impossible to improve the invention. In a hurry, the 1997 homepage was opened, and a patent for improving one fault was filed. With the cooperation of the former president, for example, liquid metal gravity solar power generation drives generators and heat pumps at zero fuel cost, making it possible to drive turbines that produce extremely infinite electricity, heat and cold at an extremely low cost, 500 ° C I would like to move to the best engine by actually experimenting with liquid metal gravity power generation, increasing the atmospheric pressure, the same speed, and the same volumetric power to 13,000 times the existing steam turbine power generation.

米国特許第6119650号、中国特許第8818号、EU英国特許902175号、米国特許第6263664号があり、上記多数の背景技術を改良や、下記特許文献2理論最良エンジン発明の過程の発明や、実験最良を狙う発明では、液体金属重力発電で蒸気タービン発電の1〜2.3万倍発電にする実験をしよう、太陽熱を種に重力駆動熱ポンプで無限大に近い温熱と冷熱製造の実験をしよう、液体金属重力発電や資源量から水重力発電で既存世界の10倍発電量にしよう、化石燃料等限りある資源の燃焼は必要最小限にして子孫に残そう、等があります。There are US Pat. No. 6,119,650, Chinese Patent No. 8818, EU British Patent No. 902175, and US Pat. No. 6,263,664. Many of the above-mentioned background technologies have been improved, and in the following Patent Document 2 theoretical best engine invention process invention and experiment In the invention aiming at the best, let's experiment with liquid metal gravity power generation to generate 13,000 to 13,000 times that of steam turbine power generation, experiment with near-infinite heat and cold production with solar power as a gravity driven heat pump There are, for example, liquid metal gravity power generation and resource-based water gravity power generation to make the power generation 10 times that of the existing world.

先の出願として特願2008−6612号、特願2008−22246号、特願2008−24656号、特願2008−28582号、特願2008−30162号、特願2008−94452号、特願2008−99870号、特願2008−125665号、特願2008−134046号、特願2008−137629号、特願2008−157556号、特願2008−158830号、特願2008−162842号、特願2008−164111号、特願2008−166907号、特願2008−169979号、特願2008−173046号、特願2008−174231号、特願2008−178700号、特願2008−179872号、特願2008−181052号、特願2008−182325号、特願2008−186795号、特願2008−188165号、特願2008−202677号、特願2008−203842号、特願2008−206632号、特願2008−209497号、特願2008−214912号、特願2008−229434号、特願2008−231842号、特願2008−243690号、特願2008−245061号、特願2008−249719号、特願2008−256006号、特願2008−266020号、特願2008−269294号、特願2008−282825号、特願2008−288411号、特願2008−290630号、特願2008−295174号、特願2008−299091号、特願2008−305951号、特願2008−319210、特願2008−327045号と、実験最良を狙う特願2009−011656号、特願2009−013856号、特願2009−015027号、特願2009−016249号、特願2009−021161号、特願2009−022247号、特願2009−023345号、特願2009−024512号、特願2009−025684号、特願2009−026989号、特願2009−028105号、特願2009−028150号、特願2009−028253号、特願2009−029406号、特願2009−029471号、特願2009−029539号、特願2009−030759号、特願2009−030865号、特願2009−030942号、特願2009−032264号、特願2009−032312号、特願2009−032378号、特願2009−033490号、特願2009−033534号、特願2009−033679号、特願2009−037263号、特願2009−048869号、特願2009−048951号、特願2009−049078号、特願2009−057455号、特願2009−057586号、特願2009−057745号、特願2009−077911号、特願2009−078042号、特願2009−099631号、特願2009−099697号、特願2009−099777号、特願2009−101616号、特願2009−101707号、特願2009−101813号、特願2009−102700号、特願2009−102759号、特願2009−102834号があります。As prior applications, Japanese Patent Application No. 2008-6612, Japanese Patent Application No. 2008-22246, Japanese Patent Application No. 2008-24656, Japanese Patent Application No. 2008-28582, Japanese Patent Application No. 2008-30162, Japanese Patent Application No. 2008-94452, Japanese Patent Application No. 2008- No. 99870, Japanese Patent Application No. 2008-125665, Japanese Patent Application No. 2008-134046, Japanese Patent Application No. 2008-137629, Japanese Patent Application No. 2008-157556, Japanese Patent Application No. 2008-158830, Japanese Patent Application No. 2008-162842, Japanese Patent Application No. 2008-164111 No., Japanese Patent Application No. 2008-166907, Japanese Patent Application No. 2008-169799, Japanese Patent Application No. 2008-173046, Japanese Patent Application No. 2008-174231, Japanese Patent Application No. 2008-178700, Japanese Patent Application No. 2008-179872, Japanese Patent Application No. 2008-181052 Japanese Patent Application No. 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既存世界の火力原子力発電所では、CO2増大地球温暖化加速や海水表面温度摂氏7度上昇海域を100年で1000倍等とし、冬場に海面冷却海底に栄養分を供給していた自然現象を段階的に不可能として、植物プランクトンや海草類やサンゴ等を激減、食物連鎖により魚類の食糧激減魚類を大幅に激減人類の海中食物を限り無く減少し、旱魃や集中豪雨や台風や季節風を100年で10倍等に増大して、例えば台風や季節風を300m/秒等として陸上での食糧生産も加速度的に困難とし、人類絶滅の危険を増大のため、地球温暖化防止して人類絶滅を先送りする課題が在り、化石燃料を大量に燃焼すると地球が温暖化すると共に資源が枯渇するため、化石燃料燃焼は必要最少にして、子孫に残すと共に、CO2排気僅少や海水温度上昇0にする課題があります。   In the existing thermal power plants in the world, CO2 increases global warming acceleration and sea surface temperature rises 7 degrees Celsius by 1000 times in 100 years, etc., and the natural phenomenon of supplying nutrients to the sea surface cooling seabed in winter is staged However, phytoplankton, seaweeds, corals, etc. will be drastically reduced, fish food will be drastically reduced by the food chain, and fish will be drastically reduced. The issue of doubling, for example, making typhoons and seasonal winds 300m / s, etc., making food production on land more difficult and accelerating the danger of humanity extinction, preventing global warming and delaying human extinction If a large amount of fossil fuel is burned, the earth will be warmed and resources will be depleted, so fossil fuel combustion will be kept to a minimum, and it will remain in the offspring, while CO2 emissions will be scarce and seawater temperature will rise There is a challenge to.

熱製造の熱ポンプを水重力タービンで駆動すると、温熱(圧縮空気熱量等)と冷熱(圧縮空気質量等)を燃料費0で無限製造の挑戦となり、重力地熱発電や重力太陽エンジンにより、地熱や熱製造装置の熱ポンプにより温熱と冷熱の製造量を無限大に近付け、限りある石油資源等はCO2にせず大切な資源として必要最小限の使用とし、子子孫孫まで残すと共に地球温暖化防止して、旱魃や海面上昇や台風や季節風の巨大化を阻止し、海底に冷熱の酸素や窒素等の栄養分を供給して、植物プランクトンや海草類やサンゴや魚類等を増殖人類の食物を増大し、既存世界の10倍発電量以上として、既存世界の火力原子力発電所を全廃重力発電にし、重力発電の蓄電池駆動各種自動車類全盛や、蓄電池駆動各種船舶類全盛や電気駆動全面電化住宅全盛や工場電化全盛や温熱と冷熱利用全盛にして、海水温度上昇0やCO2排気0や燃料費0で発電し、地球温暖化防止して人類絶滅を先送りして、重力地熱タービン等で電気及び温熱と冷熱の製造量を無限大に近付け、温熱(圧縮空気熱量圧力)や冷熱(圧縮空気質量圧力)の需要全部に対応します。 When a heat pump for heat production is driven by a hydrogravity turbine, heat (compressed air calorie, etc.) and cold heat (compressed air mass, etc.) become an infinite production challenge with zero fuel cost. The heat pump of the heat production device brings the production amount of heat and cold close to infinity, and the limited petroleum resources are not used as CO2, but the minimum use as an important resource is left to the offspring and prevent global warming. To prevent drought, sea level rise, typhoons and seasonal winds, and supply nutrients such as cold oxygen and nitrogen to the sea floor to increase phytoplankton, seaweeds, corals and fish, etc. More than 10 times the amount of electricity generated in the existing world, the existing nuclear power plants in the world will be completely abolished, and all types of automobiles powered by storage batteries driven by gravity power generation, all types of ships powered by storage batteries and all-electrically driven houses Sheng and factory electrification prime and warm and cold use prime, power generation with seawater temperature rise 0, CO2 exhaust 0 and fuel cost 0, prevent global warming, postpone human extinction, electricity and gravity geothermal turbine etc. The production volume of hot and cold is brought to infinity, and all demands for hot (compressed air calorie pressure) and cold (compressed air mass pressure) are met.

CO2排気0海水温度上昇0燃料費0の竪型全動翼重力地熱タービン8Gにより、水重力地熱発電にし、大気圧同速度同容積仕事率kg重m/秒を既存蒸気タービン発電の1700倍発電量にして、既存世界の発電量の10倍発電量とし、水重力地熱発電蓄電池駆動各種自動車類全盛や、蓄電池駆動各種船舶類全盛や全面電化住宅全盛にして、既存世界の火力原子力発電所全廃CO2排気0海面温度上昇0にし、地球温暖化防止して、人類絶滅を先送りする効果があります。   CO2 exhaust 0 Seawater temperature rise 0 Fuel cost 0 vertical type full-blade gravity geothermal turbine 8G makes hydrogravity geothermal power generation, 1700 times power generation of existing steam turbine power generation with atmospheric pressure, same speed, same volumetric power kg weight m / sec The amount of power generation is 10 times the amount of power generation in the existing world, and all types of automobiles driven by hydrogravity geothermal power storage batteries, all types of ships driven by storage batteries, and full-scale electrified housing are fully abolished. It has the effect of delaying the extinction of mankind by reducing CO2 emissions to 0 sea surface temperature rise, preventing global warming.

真空加速竪型全動翼重力タービン8Gの説明図(実施例1)Explanatory drawing of vacuum acceleration saddle type all blade gravity turbine 8G (Example 1) 熱量加速竪型全動翼重力タービン8Gの説明図(実施例2)Explanatory drawing of a calorie acceleration vertical type moving blade gravity turbine 8G (Example 2) 質量加速竪型全動翼重力タービン8Gの説明図(実施例3)Explanatory drawing of mass acceleration vertical type all blade gravity turbine 8G (Example 3)

発明の実施の形態や実施例を、図面を参照して説明するが、実施形態や実施例と既説明とその構成が略同じ部分には、同一の名称又は符号を付して、重複説明はできるだけ省略し、特徴的な部分や説明不足部分は、順次追加重複説明する。又非常に難解な脳内理論最良エンジン発明のためと、意図する所及び予想を具体的に明快に説明するため、アイディアを仮説数字で説明するが、正解は実験数字として理論最良エンジンの仮説数字に限定しません。最良と思われるアイディアを多数の用途で重複説明し、用途に合せてアイディアを選択使用して、請求項では多用途に合せて選択使用するため千変万化し、理論最良エンジンから実験最良エンジンに順次移行するため実験結果を重視して、出願の要素を互換することとして膨大になる出願請求項の数を低減します。   Embodiments and examples of the invention will be described with reference to the drawings, but the same names or reference numerals are given to portions that are substantially the same as those of the embodiments and examples and the description, and redundant description will be omitted. Omitted as much as possible, and the characteristic part and the lack of explanation will be explained in duplicate. The idea is explained with hypothetical figures for the very difficult brain theory best engine invention and to clearly explain the intended place and expectation, but the correct answer is the hypothetical figure of the theoretical best engine as an experimental figure. It is not limited to. The idea that seems to be the best is duplicated in many applications, the idea is selected and used according to the application, and the claim is selected to be used according to multiple applications. In order to reduce the number of application claims that become enormous as the results of the application are interchanged.

図1の真空加速竪型全動翼水重力タービン8G発電では、水噴射ポンプ6zの噴射水速度を水重力と真空で加速して、既存タービン翼断面積の2〜26倍断面積にして電気加熱したタービン翼断面4Xに噴射し、水の転がり接触で竪型全動翼水重力タービン8Gを駆動して、角型タービン外箱77aを正方形に近付けて、角部に揚水装置1Jを設けて水を最上部に上昇保存し、外箱77a内に1〜120段等タービンを垂直に多段に設けて、熱ポンプで使用電力の3〜5倍の熱エネルギが得られるため、公知技術加熱の地熱空気加熱器2zで空気28aを地熱で加熱して、熱ポンプ1Gで吸入圧縮800〜1200度圧縮空気28aにし、用途により燃料噴射燃焼して燃焼ガス49にして、圧縮熱回収器2Cで過熱蒸気50や別空気28aを加熱し、別空気を500度前後に加熱熱ポンプ1Gで800〜1200度に圧縮熱回収を繰り返して、複数回熱回収過熱蒸気や圧縮空気を製造し、200度前後24〜400MPa圧縮空気28a質量+500度前後24〜400MPa過熱蒸気50熱量に分割保存して、水を水噴射ポンプ6zで400MPa等噴射し、水噴射速度を水重力と真空で加速竪型全動翼水重力タービン8Gを駆動して、温熱(過熱蒸気)や冷熱(圧縮空気や燃焼ガス)の無限製造タービン駆動する地球温暖化防止発電にします。   In the vacuum accelerating saddle-type all-blade water gravity turbine 8G power generation shown in FIG. 1, the water injection pump 6z is accelerated by the water gravity and vacuum to make the cross-sectional area 2 to 26 times the existing turbine blade cross-sectional area. It sprays on the heated turbine blade cross section 4X, drives the vertical all blade water gravity turbine 8G by rolling contact with water, brings the square turbine outer box 77a close to a square, and provides a pumping device 1J at the corner. Water is stored at the top, and turbines such as 1 to 120 stages are vertically arranged in multiple stages in the outer box 77a, and heat energy can be obtained 3 to 5 times the electric power used by the heat pump. The air 28a is heated with geothermal heat by the geothermal air heater 2z, converted to suction compression 800-1200 degrees compressed air 28a by the heat pump 1G, fuel-injected and combusted according to the application to form the combustion gas 49, and overheated by the compressed heat recovery unit 2C. Steam 50 and other air 28a Heating is performed, and the compressed air is repeatedly recovered to 800 to 1200 degrees with a heating heat pump 1G around 500 degrees to produce heat-recovered superheated steam and compressed air, and about 200 degrees 24 to 400 MPa compressed air 28a mass +500 24 to 400MPa superheated steam 50 degree of heat quantity before and after the temperature, water is injected 400MPa etc. by water injection pump 6z, water injection speed is accelerated by water gravity and vacuum to drive the vertical-type full blade hydrogravity turbine 8G It is a global warming prevention power generation driven by an infinite production turbine of hot (superheated steam) and cold (compressed air and combustion gas).

真空加速竪型全動翼水重力タービン8G内側動翼群60C外側動翼群60Dは、可能な限り全自動加工可能に段落毎同径略同形として嵌合ボルト組立にして、多段動翼群と多段タービンを可能にすると共に全自動加工や組立容易にし、重量を支える推力軸受80aや軸受80や水を加速する重力加速部1gを設け、電気加熱温度管理タービン翼の保温タービン間重力加速部1gには、発電機1や熱ポンプ1Gを駆動する横軸1h貫通穴を具備して、発電機1や熱ポンプ1Gを断熱保温した角型タービン外箱77aの外で駆動し、竪型全動翼水重力タービン8Gの回転方向を交互にして振動や騒音を相殺僅少にして、重力加速部1gにより水の最高速度とし、大気圧同速度同容積仕事率kg重m/秒を既存蒸気タービン発電の1700倍発電にして、強度増大大型翼面の転がり接触回転出力発生として、排気の過程では、空気抽出器51と水復水器2aと冷熱復水器2Hの水冷却と冷熱冷却により真空とし、海水温度上昇0CO2排気僅少の発電にし、既存火力原子力発電量を0にする地球温暖化防止発電にします。 The vacuum accelerating saddle-type all-blade hydrogravity turbine 8G inner blade group 60C outer blade group 60D can be fully automated as much as possible. A multistage turbine is made possible, fully automatic machining and assembly are facilitated, and a thrust bearing 80a supporting the weight, a bearing 80 and a gravity acceleration unit 1g for accelerating water are provided, and a gravitational acceleration unit 1g between heat retaining turbines for an electrically heated temperature management turbine blade. Is equipped with a horizontal shaft 1h through hole for driving the generator 1 and the heat pump 1G, and the generator 1 and the heat pump 1G are driven outside the rectangular turbine outer box 77a which is insulated and heat-insulated. The rotation direction of the blade water gravity turbine 8G is alternated so that vibrations and noises are negligible, and the maximum speed of water is set by the gravitational acceleration unit 1g. 1700 times the power generation In order to generate rolling contact rotation output of a large blade surface with increased strength, in the exhaust process, the air extractor 51, the water condenser 2a, and the cold condenser 2H are evacuated to form a vacuum, and the seawater temperature rises 0CO2. We will make power generation with minimal emissions and prevent global warming by reducing the amount of existing thermal power generation to zero.

図2の熱量加速竪型全動翼水重力タービン8G発電では、水噴射ポンプ6zの噴射水速度を水重力と過熱蒸気熱量で加速して、既存タービン翼断面積の2〜26倍断面積にして電気加熱したタービン翼断面4Xに噴射し、水の転がり接触で竪型全動翼水重力タービン8Gを駆動して、角型タービン外箱77aを正方形に近付けて、角部に揚水装置1Jを設けて水を最上部に上昇保存し、外箱77a内に1〜120段等タービンを垂直に多段に設けて、熱ポンプで使用電力の3〜5倍の熱エネルギが得られるため、公知技術加熱の地熱空気加熱器2zで空気28aを地熱で加熱して、熱ポンプ1Gで吸入圧縮800〜1200度圧縮空気28aにし、用途により燃料噴射燃焼して燃焼ガス49にして、圧縮熱回収器2Cで過熱蒸気50や別空気28aを加熱し、別空気を500度前後に加熱熱ポンプ1Gで800〜1200度に圧縮熱回収を繰り返して、複数回熱回収過熱蒸気や圧縮空気を製造し、200度前後24〜400MPa圧縮空気28a質量+500度前後24〜400MPa過熱蒸気50熱量に分割保存して、水を水噴射ポンプ6zで400MPa等噴射し、水噴射速度を水重力と過熱蒸気熱量で加速竪型全動翼水重力タービン8Gを駆動して、温熱(過熱蒸気)や冷熱(圧縮空気や燃焼ガス)の無限製造タービン駆動する、地球温暖化防止発電にします。   In the calorie-accelerated vertical moving blade water gravity turbine 8G power generation shown in FIG. 2, the water injection pump 6z is accelerated by the water gravity and the superheated steam calorie to make the cross-sectional area 2 to 26 times the existing turbine blade cross-sectional area. Injected into the electrically heated turbine blade cross section 4X and driven by the rolling contact of water with the vertical all blade water gravity turbine 8G to bring the square turbine outer box 77a close to a square, and the pumping device 1J at the corner Since the water is raised and stored at the top, and turbines such as 1 to 120 stages are provided in multiple stages vertically in the outer box 77a, the heat pump can obtain 3 to 5 times the heat energy used. The air 28a is heated with geothermal heat by a heating geothermal air heater 2z, and is converted into suction compressed air 800-1200 degrees compressed air 28a with a heat pump 1G, and fuel is injected and combusted to a combustion gas 49 according to use, and the compressed heat recovery device 2C With superheated steam 50 or another air 8a is heated, and compressed air is recovered to 800 to 1200 degrees with a heating heat pump 1G at around 500 degrees by heating 8a, and heat-recovered superheated steam and compressed air are produced a plurality of times. 28a mass + 500 degrees around 24 to 400MPa Superheated steam 50 divided by heat, water is injected 400MPa etc. with water injection pump 6z, water injection speed is accelerated by water gravity and superheated steam heat quantity Drive 8G to produce a global warming-preventing power generation that drives an infinitely manufactured turbine of hot (superheated steam) and cold (compressed air and combustion gas).

熱量加速竪型全動翼水重力タービン8G内側動翼群60C外側動翼群60Dは、可能な限り全自動加工可能に段落毎同径略同形として嵌合ボルト組立にして、多段動翼群と多段タービンを可能にすると共に全自動加工や組立容易にし、重量を支える推力軸受80aや軸受80や水を加速する重力加速部1gを設け、電気加熱温度管理タービン翼の保温タービン間重力加速部1gには、発電機1や熱ポンプ1Gを駆動する横軸1h貫通穴を具備して、発電機1や熱ポンプ1Gを断熱保温した角型タービン外箱77aの外で駆動し、竪型全動翼水重力タービン8Gの回転方向を交互にして振動や騒音を相殺僅少にして、重力加速部1gにより水の最高速度とし、大気圧同速度同容積仕事率kg重m/秒を既存蒸気タービン発電の1700倍発電にして、強度増大大型翼面の転がり接触回転出力発生として、排気の過程では、空気抽出器51と水復水器2aと冷熱復水器2Hの水冷却と冷熱冷却により真空とし、海水温度上昇0CO2排気僅少の発電にし、既存火力原子力発電量を0にする地球温暖化防止発電にします。 Calorie Accelerating Spider-Type Fully Bladed Water Gravity Turbine 8G Inner Moving Blade Group 60C Outer Moving Blade Group 60D can be fully automated as much as possible by assembling bolts with the same diameter and the same shape for each paragraph. A multistage turbine is made possible, fully automatic machining and assembly are facilitated, and a thrust bearing 80a supporting the weight, a bearing 80 and a gravity acceleration unit 1g for accelerating water are provided, and a gravitational acceleration unit 1g between heat retaining turbines for an electrically heated temperature management turbine blade. Is equipped with a horizontal shaft 1h through-hole for driving the generator 1 and the heat pump 1G, and the generator 1 and the heat pump 1G are driven outside the rectangular turbine outer box 77a which is insulated and heat-insulated. The rotation direction of the blade water gravity turbine 8G is alternated so that vibrations and noises are negligible, and the maximum speed of water is set by the gravitational acceleration unit 1g. 1700 times the power generation In order to generate rolling contact rotation output of a large blade surface with increased strength, in the exhaust process, the air extractor 51, the water condenser 2a, and the cold condenser 2H are evacuated to form a vacuum, and the seawater temperature rises 0CO2. We will make power generation with minimal emissions and prevent global warming by reducing the amount of existing thermal power generation to zero.

図3の質量加速竪型全動翼水重力タービン8G発電では、水噴射ポンプ6zの噴射水速度を水重力と圧縮空気質量又は燃焼ガス質量で加速して、既存タービン翼断面積の2〜26倍断面積にして電気加熱したタービン翼断面4Xに噴射し、水の転がり接触で竪型全動翼水重力タービン8Gを駆動して、角型タービン外箱77aを正方形に近付けて、角部に揚水装置1Jを設けて水を最上部に上昇保存し、外箱77a内に1〜120段等タービンを垂直に多段に設けて、熱ポンプで使用電力の3〜5倍の熱エネルギが得られるため、公知技術加熱の地熱空気加熱器2zで空気28aを地熱で加熱して、熱ポンプ1Gで吸入圧縮800〜1200度圧縮空気28aにし、用途により燃料噴射燃焼して燃焼ガス49にして、圧縮熱回収器2Cで過熱蒸気50や別空気28aを加熱し、別空気を500度前後に加熱熱ポンプ1Gで800〜1200度に圧縮熱回収を繰り返して、複数回熱回収過熱蒸気や圧縮空気を製造し、200度前後24〜400MPa圧縮空気28a質量又は、燃焼ガス49質量+500度前後24〜400MPa過熱蒸気50熱量に分割保存して、水を水噴射ポンプ6zで400MPa等噴射し、水噴射速度を水重力と圧縮空気質量又は燃焼ガス質量で加速竪型全動翼水重力タービン8Gを駆動して、温熱(過熱蒸気)や冷熱(圧縮空気や燃焼ガス)の無限製造タービン駆動する地球温暖化防止発電にします。   In the mass-accelerated vertical all-blade water gravity turbine 8G power generation shown in FIG. 3, the jet water speed of the water jet pump 6z is accelerated by the water gravity and the compressed air mass or the combustion gas mass. It is sprayed to the turbine blade cross section 4X which is electrically heated to a double cross-sectional area, and the vertical all-blade water gravity turbine 8G is driven by rolling contact with water to bring the square turbine outer box 77a closer to a square and to the corner A pumping device 1J is provided to store water in the uppermost position, and turbines such as 1 to 120 stages are vertically arranged in multiple stages in the outer box 77a, so that heat energy of 3 to 5 times the power used can be obtained with a heat pump. Therefore, the air 28a is heated with geothermal heat by a known technology heating geothermal air heater 2z, and is compressed to 800-1200 degree suction compressed air 28a by a heat pump 1G, and is fuel-injected and combusted to a combustion gas 49 depending on the application. Overheat in heat recovery unit 2C The air 50 and the separate air 28a are heated, and the compressed air is repeatedly recovered to 800 to 1200 degrees with the heating heat pump 1G at around 500 degrees to produce another heat recovery superheated steam and compressed air, and around 200 degrees. 24 to 400MPa compressed air 28a mass or combustion gas 49 mass + around 500 degrees 24 to 400MPa superheated steam 50 calorie, water is injected 400MPa etc. with water jet pump 6z, water injection speed is water gravity and compressed air The acceleration vertical type moving blade water gravity turbine 8G is driven by the mass or combustion gas mass, and it is made into the global warming prevention power generation that drives the infinite production turbine of hot (superheated steam) and cold (compressed air and combustion gas).

質量加速竪型全動翼水重力タービン8G内側動翼群60C外側動翼群60Dは、可能な限り全自動加工可能に段落毎同径略同形として嵌合ボルト組立にして、多段動翼群と多段タービンを可能にすると共に全自動加工や組立容易にし、重量を支える推力軸受80aや軸受80や水を加速する重力加速部1gを設け、電気加熱温度管理タービン翼の保温タービン間重力加速部1gには、発電機1や熱ポンプ1Gを駆動する横軸1h貫通穴を具備して、発電機1や熱ポンプ1Gを断熱保温した角型タービン外箱77aの外で駆動し、竪型全動翼水重力タービン8Gの回転方向を交互にして振動や騒音を相殺僅少にして、重力加速部1gにより水の最高速度とし、大気圧同速度同容積仕事率kg重m/秒を既存蒸気タービン発電の1700倍発電にして、強度増大大型翼面の転がり接触回転出力発生として、排気の過程では、空気抽出器51と水復水器2aと冷熱復水器2Hの水冷却と冷熱冷却により真空とし、海水温度上昇0CO2排気僅少の発電にし、既存火力原子力発電量を0にする地球温暖化防止発電にします。 The mass-accelerated saddle-type all blade hydrogravity turbine 8G inner blade group 60C outer blade group 60D can be fully automatically processed as much as possible by assembling bolts with the same diameter and the same shape for each paragraph. A multistage turbine is made possible, fully automatic machining and assembly are facilitated, and a thrust bearing 80a supporting the weight, a bearing 80 and a gravity acceleration part 1g for accelerating water are provided, and a gravitational acceleration part 1g between heat retaining turbines for an electrically heated temperature management turbine blade. Is equipped with a horizontal shaft 1h through hole for driving the generator 1 and the heat pump 1G, and the generator 1 and the heat pump 1G are driven outside the rectangular turbine outer box 77a which is insulated and heat-insulated. The rotational direction of the bladed water gravity turbine 8G is alternated so that vibrations and noises are negligible, and the maximum speed of water is set by the gravitational acceleration unit 1g. 1700 times the power generation In order to generate rolling contact rotation output of a large blade surface with increased strength, in the exhaust process, the air extractor 51, the water condenser 2a, and the cold condenser 2H are evacuated to form a vacuum, and the seawater temperature rises 0CO2. We will make power generation with minimal emissions and prevent global warming by reducing the amount of existing thermal power generation to zero.

海水温度上昇0CO2排気僅少の、理論最良エンジン水重力地熱発電により、既存世界発電量の10倍発電量として既存火力原子力発電を全廃し、安価な水重力地熱発電蓄電池駆動の各種自動車類全盛や各種船舶類全盛や、電気使用の全面電化住宅全盛や工場電化全盛等にして、理論最良エンジンから実験結果最良エンジンに移行し、地球温暖化防止して人類絶滅を先送りする可能性があります。   Sea water temperature rise 0 CO2 exhaust is small, theoretical best engine hydrogravity geothermal power generation will abolish existing thermal nuclear power generation as 10 times the existing world power generation amount, various types of automobiles driven by inexpensive hydrogravity geothermal power storage batteries and various There is a possibility of shifting from the theoretical best engine to the best engine result of the experiment, such as the full-scale electrification of houses, full-scale electrification of houses that use electricity, and the full-scale electrification of factories to prevent global warming and postpone human extinction.

0:真空、 1:発電機、 1A:水銀排気検査室、 1B:酸素量増大手段、 1C:アルコール冷熱、 1D:燃料噴射ポンプ、 1F:復水ポンプ、 1G:熱ポンプ、 1H:揚水ポンプ、 1J:揚水装置、 1Y:燃焼器、 1b:燃料、 1c:比重大物質、 1d:水銀、 1e:被覆鋼球(衝撃低減手段2Gで被覆) 1e:被覆水銀(球形のステンレス等耐久材や衝撃低減手段2Gで被覆) 1g:重力加速部、 1h:横軸、 2:太陽光加熱器(長レンズで太陽光を傾斜回転して追跡) 2a:水復水器、 2b:太陽熱増大吊橋(吊具左右を上下して長レンズ複数段で太陽光を傾斜回転して追跡) 2c:断熱材、 2d:長レンズ、 2e:水面、 2f:吊具左、 2g:吊具右、 2A:耐熱材、 2B:熱吸収材、 2C:圧縮熱回収器、 2D:出力増大手段、 2E:出力増大球(水銀・液体鉛・液体錫・液体ビスマス・液体カドミウム・液体インジウム・液体ガリウム・液体亜鉛・液体タリウム・液体金属・水・白金球・被覆白金球・金球・被覆金球・白金合金球・金合金球・鉛合金球・銀合金球・被覆白金合金球・被覆金合金球・被覆鉛球・被覆銀合金球・タングステン合金球・被覆タングステン合金球・タングステン鋼球・被覆タングステン鋼球・タンタル合金球・被覆タンタル合金球・モリブデン鋼球・被覆モリブデン鋼球・モリブデン鋳鉄球・被覆モリブデン鋳鉄球・銀球・被覆銀球) 2F:増大球上昇装置、 2G:衝撃低減手段(小径球・潤滑油類・不燃液体類・ゴム類・プラスチック類等の被覆) 2H:冷熱復水器、 2J:液体金属熱交換器、 2K:潤滑性材料、 2X:空気熱交換器、 2Y:水熱交換器、 2Z:水銀熱交換器、 3:摩擦損失低減手段(撥水作用や加熱高温手段や被覆等最適利用公知技術で摩擦損失を低減) 3A:撥水作用(水との摩擦損失低減手段) 3B:加熱高温手段(電気抵抗や電磁加熱等既存技術で高温にする) 3C:冷熱回収手段、 3G:撥水作用(水銀との摩擦損失低減手段) 4A:タービン翼断面(既存断面) 4B:タービン翼断面(出力面湾曲少断面) 4C:タービン翼断面(出力面直線断面) 4D:タービン翼断面(出力反対面直線断面) 4E:タービン翼断面(出力反対面湾曲少断面) 4F:タービン翼断面(既存の反対断面) 4X:タービン翼断面(4A〜4Fより選択断面) 5C:空気排気室、 6:ノズル、 6a:ノズル噴射部、 6b:ノズル噴射部、 6d:ノズル噴射部、 6z:水噴射ポンプ、 6A:過熱蒸気噴射ノズル、 6B:液体鉛噴射ポンプ、 6C:液体錫噴射ポンプ、 6D:液体ビスマス噴射ポンプ、 6E:液体亜鉛噴射ポンプ、 6F:圧縮空気噴射ノズル、 6H:液体カドミウム噴射ポンプ、 6I:液体インジウム噴射ポンプ、 6J:液体ガリウム噴射ポンプ、 6K:液体タリウム噴射ポンプ、 6L:液体金属噴射ポンプ、 6X:燃料噴射ノズル、 6Y:燃焼ガス噴射ノズル、 6Z:水銀噴射ポンプ、 7:燃料噴射弁、 7A:プロペラ、 7B:回転翼、 7C:スクリュー、 7E:回転腕翼、 8a:全動翼弾み車ガスタービン(全動翼ガスタービン又は全動翼質量タービン)、 8b:全動翼弾み車水タービン(全動翼水タービン又は全動翼熱量タービン)、 8c:タービン翼、 8d:側板、 8e:円筒胴、 8E:全動翼弾み車水銀タービン(全動翼水銀タービン又は全動翼熱量タービン)8F:全動翼弾み車重力タービン、8G:竪型全動翼重力太陽熱タービン(竪型全動翼熱量タービン+竪型全動翼質量タービン)、 8K:液体金属重力対向タービン(対向タービン対向熱量タービン対向質量タービン)、8K:対向直列全動翼弾み車タービン(対向直列全動翼弾み車水銀タービン対向直列全動翼弾み車水タービン対向直列全動翼弾み車ガスタービン対向直列全動翼弾み車重力タービン)、 8L:直列全動翼弾み車タービン(直列全動翼弾み車水銀タービン直列全動翼弾み車水タービン直列全動翼弾み車ガスタービン直列全動翼弾み車重力タービン)、 10:船体、 10a:拡径圧縮室、10b:操縦室、 10c:制御室、 10d:客室、 10e:貨物室、 11A:隔壁、 11B:水室 11C:空気室、 11D:真空室、 16:クランク軸、16A:水平軸、 21:拡径ピストン、24:燃焼ガス制御弁、 24A:圧縮空気制御弁、 25:過熱蒸気制御弁、 25B:高温水制御弁、 25a:吸気弁、 25b:燃料制御弁、 28a:空気、 28a:内部空気、 28a:空気管空気、 28b:圧縮空気熱量、 28A:吸入空気路、 28B:空気路入口、 37a:着磁摩擦車、 37b:内着磁摩擦車、 38a:飛行胴、 38b:飛行翼、 38c:飛行尾翼、 38d:垂直翼、 38e:翼前縁心、 38g:水上翼、 38A:重力飛行機、 38B:空気噴射船舶、 38C:水噴射船舶、 39A:太陽熱重力飛行機、 39A:液体金属重力太陽熱宇宙往還機、 39B:太陽熱重力回転飛行機、 39B:液体金属重力太陽熱飛行機、 39C:太陽熱重力ヘリコプター、 39C:液体金属重力太陽熱飛行船舶、 39D:スクリュー船舶、 39D:液体金属重力太陽熱船舶、 39F:宇宙往還機、 39G:宇宙往還飛行船舶、 40A:方向舵、 46:磁石部、 49:燃焼ガス、 49B:煙突燃焼ガス熱量、 49C:工場使用熱量、 50:過熱蒸気、 51:空気抽出器、 52a:水、 52b:水(太陽光で温度が変る水) 52b:高温水、 52d:温熱、 52d:水温熱、 52d:過熱蒸気温熱、 52e:冷熱、 52e:水冷熱、 52e:圧縮空気冷熱、 52e:アルコール冷熱、 52e:氷冷熱、 55:歯車式同期装置(磁気摩擦同期装置を含む) 55B:磁気摩擦変速装置(歯車式及び送水ポンプ兼用を含む) 55Y:歯車式変速装置(既存変速機から選択) 60A:内側軸装置、 60B:外側軸装置、 60C:内側動翼群、 60D:外側動翼群、 77B:筒形外箱、 77D:ウォータージェット外箱、 77F:噴射部外箱、 77G:円筒回転部、 77a:タービン外箱、 78K:合体機関噴射部、 78S:合体機関噴射部(スクラムジェット+蒸気タービン他) 78T:合体機関噴射部(スクラムジェット+蒸気タービン他) 78U:合体機関噴射部(スクラムジェット+蒸気タービン他) 78V:合体機関噴射部、 79K:合体機関噴射部、 79M:ウォータージェット、 79S:ウォータージェット、 79T:ウォータージェット、 79U:ウォータージェット、 79V:ウォータージェット、 80:軸受、 80a:推力軸受、 80A:継手、 80B:締付具、 81:支軸、 81a:支点、 84:二重反転磁気摩擦動力伝達装置(歯車式及び送水ポンプ兼用を含む) 84Y:二重反転歯車装置(既存技術) 94:固定外箱、 94A:外箱垂直部、 95:高温水溜、 95a:燃焼ガス溜、 95b:圧縮空気溜、 95c:過熱蒸気溜、 95A:吸水路、 95B:燃料溜、 96A:送水路、 97:逆止弁、103:冷熱回収器、   0: Vacuum, 1: Generator, 1A: Mercury exhaust inspection room, 1B: Oxygen amount increasing means, 1C: Alcohol cooling, 1D: Fuel injection pump, 1F: Condensate pump, 1G: Heat pump, 1H: Pumping pump, 1J: Pumping device, 1Y: Combustor, 1b: Fuel, 1c: Specific critical material, 1d: Mercury, 1e: Coated steel ball (covered with impact reducing means 2G) 1e: Coated mercury (durable material such as spherical stainless steel and impact 1g: Gravity acceleration part, 1h: Horizontal axis, 2: Solar heater (tracking by tilting and rotating sunlight with long lens) 2a: Water condenser, 2b: Solar thermal increase suspension bridge (suspended) 2c: heat insulating material, 2d: long lens, 2e: water surface, 2f: hanger left, 2g: hanger right, 2A: heat resistant material 2B: heat absorbing material, 2C: Reduced heat recovery unit, 2D: output increasing means, 2E: output increasing sphere (mercury, liquid lead, liquid tin, liquid bismuth, liquid cadmium, liquid indium, liquid gallium, liquid zinc, liquid thallium, liquid metal, water, platinum sphere・ Coated platinum balls, gold balls, coated gold balls, platinum alloy balls, gold alloy balls, lead alloy balls, silver alloy balls, coated platinum alloy balls, coated gold alloy balls, coated lead balls, coated silver alloy balls, tungsten alloy balls, Coated tungsten alloy balls, tungsten steel balls, coated tungsten steel balls, tantalum alloy balls, coated tantalum alloy balls, molybdenum steel balls, coated molybdenum steel balls, molybdenum cast iron balls, coated molybdenum cast iron balls, silver balls, coated silver balls) 2F: Expanding sphere raising device, 2G: Impact reduction means (Coating with small-diameter spheres, lubricating oils, incombustible liquids, rubbers, plastics, etc.) 2H: Cooling / cooling condenser, 2J: Liquid metal heat exchanger , 2K: Lubricating material, 2X: Air heat exchanger, 2Y: Water heat exchanger, 2Z: Mercury heat exchanger, 3: Friction loss reducing means (water repellent action, heating high temperature means, coating, etc. 3A: Water repellent action (means for reducing friction loss with water) 3B: High temperature heating means (high temperature with existing technology such as electric resistance and electromagnetic heating) 3C: Cold recovery means 3G: Water repellent action ( 4A: Turbine blade cross section (existing cross section) 4B: Turbine blade cross section (output surface curved small cross section) 4C: Turbine blade cross section (output surface straight cross section) 4D: Turbine blade cross section (output opposite surface straight line) Cross section) 4E: Turbine blade cross section (curved cross section on the opposite surface of the output) 4F: Turbine blade cross section (existing opposite cross section) 4X: Turbine blade cross section (cross section selected from 4A to 4F) 5C: Air exhaust chamber 6: Nozzle 6 : Nozzle injection unit, 6b: nozzle injection unit, 6d: nozzle injection unit, 6z: water injection pump, 6A: superheated steam injection nozzle, 6B: liquid lead injection pump, 6C: liquid tin injection pump, 6D: liquid bismuth injection pump 6E: liquid zinc injection pump, 6F: compressed air injection nozzle, 6H: liquid cadmium injection pump, 6I: liquid indium injection pump, 6J: liquid gallium injection pump, 6K: liquid thallium injection pump, 6L: liquid metal injection pump, 6X: Fuel injection nozzle, 6Y: Combustion gas injection nozzle, 6Z: Mercury injection pump, 7: Fuel injection valve, 7A: Propeller, 7B: Rotary blade, 7C: Screw, 7E: Rotary arm blade, 8a: Full bucket blade wheel Gas turbine (all blade gas turbine or all blade mass turbine), 8b: all blade impeller water turbine 8c: Turbine blades, 8d: Side plate, 8e: Cylindrical cylinder, 8E: Full blade flywheel mercury turbine (full blade mercury turbine or full blade heat quantity turbine) 8F: all-blade flywheel gravity turbine, 8G: vertical all blade gravity solar thermal turbine (vertical total blade calorific value turbine + vertical all blade mass turbine), 8K: liquid metal gravity opposed turbine (opposed turbine opposed calorific value turbine) Opposed Mass Turbine), 8K: Opposed Series Full Rotor Pusher Turbine (Opposed Series Full Rotor Pusher Mercury Turbine Opposed Series Full Rotor Pusher Water Turbine Opposed Series Full Rotor Pusher Car Gas Turbine Opposed Series Full Rotor Pusher Gravity Turbine), 8L : Series all blade impeller turbine (series all blade impeller mercury turbine series all blade impeller water turbine series all blade impeller gas turbine series all blade impeller 10b: cockpit, 10c: control room, 10d: cabin, 10e: cargo compartment, 11A: bulkhead, 11B: water chamber, 11C: air chamber, 11D: vacuum 16: Crankshaft, 16A: Horizontal shaft, 21: Expanded piston, 24: Combustion gas control valve, 24A: Compressed air control valve, 25: Superheated steam control valve, 25B: Hot water control valve, 25a: Intake valve 25b: Fuel control valve, 28a: Air, 28a: Internal air, 28a: Air tube air, 28b: Compressed air calorie, 28A: Intake air passage, 28B: Air passage inlet, 37a: Magnetized friction wheel, 37b: Inside Magnetized friction wheel, 38a: flight trunk, 38b: flight wing, 38c: flight tail, 38d: vertical wing, 38e: wing leading edge, 38g: surface wing, 38A: gravity airplane, 8B: Air-injected ship, 38C: Water-injected ship, 39A: Solar thermal gravity plane, 39A: Liquid metal gravity solar thermal spacecraft, 39B: Solar thermal gravity rotating plane, 39B: Liquid metal gravity solar thermal plane, 39C: Solar thermal gravity helicopter, 39C : Liquid metal gravity solar thermal ship, 39D: Screw ship, 39D: Liquid metal gravity solar ship, 39F: Space return aircraft, 39G: Space return flight ship, 40A: Rudder, 46: Magnet part, 49: Combustion gas, 49B: Chimney combustion gas calorific value, 49C: Factory calorific value, 50: Superheated steam, 51: Air extractor, 52a: Water, 52b: Water (water whose temperature changes with sunlight) 52b: Hot water, 52d: Thermal energy, 52d: Water Warm temperature, 52d: Superheated steam temperature, 52e: Cold heat, 52e: Water-cooled heat, 52e: Compressed air cooling 52e: alcohol cooling / heating 52e: ice cooling / heating 55: gear type synchronous device (including magnetic friction synchronous device) 55B: magnetic friction transmission device (including gear type and water pump combined use) 55Y: gear type transmission (existing speed change) 60A: Inner shaft device, 60B: Outer shaft device, 60C: Inner blade group, 60D: Outer blade group, 77B: Cylindrical outer box, 77D: Water jet outer box, 77F: Injection unit outer box 77G: Cylindrical rotating part, 77a: Turbine outer casing, 78K: Combined engine injection part, 78S: Combined engine injection part (scramjet + steam turbine, etc.) 78T: Combined engine injection part (scramjet + steam turbine, etc.) 78U: Combined engine injection unit (scramjet + steam turbine, etc.) 78V: Combined engine injection unit, 79K: Combined engine injection unit, 79M: Water jet, 79S: Water jet, 79T: Water jet, 79U: Water jet, 79V: Water jet, 80: Bearing, 80a: Thrust bearing, 80A: Fitting, 80B: Fastener, 81: Support shaft, 81a: Support point 84: Counter-rotating magnetic friction power transmission device (including gear type and water pump combined use) 84Y: Counter-rotating gear device (existing technology) 94: fixed outer box, 94A: vertical part of outer box, 95: high temperature water reservoir, 95a: combustion gas reservoir, 95b: compressed air reservoir, 95c: superheated steam reservoir, 95A: water intake channel, 95B: fuel reservoir, 96A: water supply channel, 97: check valve, 103: cold heat recovery device,

Claims (5000)

タービン翼断面(4A)を2〜26倍の水重力地熱発電海水温度上昇0CO2排気僅少で発電量増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) is 2 to 26 times hydrogravity geothermal power generation Seawater temperature rise 0CO2 exhaust is small and power generation is increased + Water pumping device (1J) is installed at the corner of square turbine outer box to save water + geothermal heating Compressed air and brought it close to 1200 degrees Heat production by repeating heat recovery by compressing heat + Accelerating water vertically downward to assemble the rotor blade group of three types of turbines with the same diameter and the same shape for each paragraph Combined engine with various energy storage cycles that recovers geothermal energy using a turbine drive + geothermal air heater. タービン翼断面(4B)を5倍の水重力地熱発電海水温度上昇0CO2排気僅少で発電量増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5 times hydrogravity geothermal power generation Seawater temperature rise 0 CO2 exhaust is small and power generation is increased + Water pumping device (1J) is installed in the corner of the square turbine outer box to save water + Geothermal heating air Compressed and heated close to 1200 ° C Heating of another air repeatedly compressing heat recovery + Accelerating water vertically downward to make the turbine blade group of three types of turbines have the same diameter for each paragraph and fitted bolt assembly turbine drive + Various energy storage cycle coalescing engines that collect geothermal heat with a geothermal air heater. タービン翼断面(4C)を6倍の水重力地熱発電海水温度上昇0CO2排気僅少で発電量増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6 times hydrogravity geothermal power generation Seawater temperature rise 0CO2 exhaust is small and power generation is increased + Water pumping device (1J) is installed at the corner of square turbine outer box to save water + Geothermal heating air Compressed and heated close to 1200 degrees Heat production by repeating another air heating and compression heat recovery + Water accelerating downward and vertically contacting the three types of turbine blades of power generation with the same diameter and the same shape for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4D)を7倍の水重力地熱発電海水温度上昇0CO2排気僅少で発電量増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7 times hydrogravity geothermal power generation Seawater temperature rise 0 CO2 exhaust is small and power generation increased + Pumping device (1J) is installed at the corner of the square turbine outer box to save water + Geothermal heating air Compressed and heated close to 1200 degrees Heat production by repeating the heat and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three types of turbines for power generation are fitted with the same diameter and the same shape for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with assembly turbine drive + geothermal air heater. タービン翼断面(4E)を8倍の水重力地熱発電海水温度上昇0CO2排気僅少で発電量増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) is 8 times hydrogravity geothermal power generation Seawater temperature rise 0CO2 exhaust is small and power generation is increased + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Geothermal heating air Compressed to close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated + water is compressed air accelerated and the blade groups of the three types of turbines for power generation are made to have the same diameter and the same shape for each stage. Combined engine with various energy storage cycles that recovers geothermal energy with a drive + geothermal air heater. タービン翼断面(4F)を9倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 9 times the turbine blade cross section (4F) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water vertically downward A variety of energy storage cycle coalescing engines that combine three types of turbine blades with the same diameter and shape of each stage, and collect geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 10 times the turbine blade cross section (4A) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water vertically downward A variety of energy storage cycle coalescing engines that combine three types of turbine blades with the same diameter and shape of each stage, and collect geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross section (4B) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 12 times the turbine blade cross section (4C) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross-section (4D) + making hot and cold energy primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating water with compressed air Various energy storage cycle coalescing engines that collect the turbine blades of the three types of power generation turbines with the same diameter and approximately the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal power generation turbines with 14 times the turbine blade cross section (4E) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that combine three types of turbine blades with the same diameter and shape of each stage, and collect geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を15倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 15 times the turbine blade cross section (4F) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を16倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 16 times the turbine blade cross section (4A) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を17倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 17 times the turbine blade cross section (4B) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water rolling vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as contacts and has the same diameter and shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を18倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 18 times the turbine blade cross section (4C) (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating water with compressed air Various energy storage cycle coalescing engines that collect the turbine blades of the three types of power generation turbines with the same diameter and approximately the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を19倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 19 times the turbine blade cross section (4D) + accelerating the storage battery drive + pumping equipment (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heat recovery by heating and compression + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, which have the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4E) 20 times larger + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heat recovery by heating and compression + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, which have the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4F) + accelerating the storage battery drive + pumping equipment (1J) outside the square turbine Installed at the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production to repeat heating and compression heat recovery + Water is accelerated and contacted vertically downward to contact three types of turbines for power generation Various energy storage cycle coalescing engines that make the blade group into almost the same shape for each paragraph and collect geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4A) + storage battery-powered various ships primed + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4B) of 23 times + accelerating water vertically + all types of storage battery driven vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Compressed air to accelerate water, and three types of turbine blades for power generation Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered by the fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4C) + accelerating the water storage + various types of vessels driven + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を25倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4D) of 25 times + accelerating water downward + storage battery driven various types of ships + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, which have the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4E) of 26 times + accelerating water downwards + accelerating various battery-powered vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を2倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structures and methods for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with double turbine blade cross-section (4F) + storage battery-powered vessels + prime pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, which have the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を3倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 3 times the turbine blade cross section (4A) + accelerating the storage battery drive + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を4倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 4 times the turbine blade cross section (4B) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を5倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 5 times the turbine blade cross section (4C) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を6倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 6 times the turbine blade cross section (4D) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, which have the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を7倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4E) 7 times larger + accelerating the water storage + various types of ships driven + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, which have the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を8倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 8 times the turbine blade cross section (4F) + accelerating water storage + various types of vessels driven by water + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heat recovery by heating and compression + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and recovery of geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を9倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 9 times the turbine blade cross section (4A) + storage battery-driven various ships primed + pumping device (1J) outside square turbine Installed at the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production to repeat heating and compression heat recovery + Water is accelerated and contacted vertically downward to contact three types of turbines for power generation Various energy storage cycle coalescing engines that make the blade group into almost the same shape for each paragraph and collect geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 10 times the turbine blade cross section (4B) + making storage batteries drive various types of ships + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines that make the blade group into almost the same shape for each paragraph and collect geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross section (4C) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines that make the rotor blade group into the same shape and shape with the same diameter for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross section (4D) + accelerating the storage battery drive + pumping equipment (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines that make the rotor blade group into the same shape and shape with the same diameter for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross section (4E) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed at the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production to repeat heating and compression heat recovery + Water is accelerated and contacted vertically downward to contact three types of turbines for power generation Various energy storage cycle coalescing engines that make the blade group into almost the same shape for each paragraph and collect geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 14 times the turbine blade cross-section (4F) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed at the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production to repeat heating and compression heat recovery + Water is accelerated and contacted vertically downward to contact three types of turbines for power generation Various energy storage cycle coalescing engines that make the blade group into almost the same shape for each paragraph and collect geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を15倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 15 times the turbine blade cross section (4A) + storage battery-powered various ships prime + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を16倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 16 times the turbine blade cross section (4B) + accelerating water storage + various types of vessels driven + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を17倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 17 times the turbine blade cross section (4C) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed at the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production to repeat heating and compression heat recovery + Water is accelerated and contacted vertically downward to contact three types of turbines for power generation Various energy storage cycle coalescing engines that make the blade group into almost the same shape for each paragraph and collect geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を18倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the water vertically by providing multiple stages of hydrogravity geothermal turbines with 18 times the turbine blade cross section (4D) + accelerating the storage battery drive + pumping equipment (1J) outside the square turbine Installed at the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production to repeat heating and compression heat recovery + Water is accelerated and contacted vertically downward to contact three types of turbines for power generation Various energy storage cycle coalescing engines that make the blade group into almost the same shape for each paragraph and collect geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を19倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 19-times hydrogravity geothermal power generation turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Compressed air to accelerate water, and three types of turbine blades for power generation Various energy storage cycle coalescing engines that collect the geothermal heat with a fitting bolt assembly turbine drive + geothermal air heater, with the group having the same diameter and the same shape for each paragraph. タービン翼断面(4F)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 20 times the turbine blade cross section (4F) + storage battery-driven various ships primed + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Compressed air to accelerate water, and three types of turbine blades for power generation Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered by the fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4A) + storage battery-driven various ships primed + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Compressed air to accelerate water, and three types of turbine blades for power generation Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered by the fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4B) + accelerating the water storage + various types of vessels driven + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Compressed air to accelerate water, and three types of turbine blades for power generation Various energy storage cycle coalescing engines that collect the geothermal heat with a fitting bolt assembly turbine drive + geothermal air heater, with the group having the same diameter and the same shape for each paragraph. タービン翼断面(4C)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4C) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Compressed water is accelerated to generate three types of turbine blades for power generation Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4D) + accelerating the storage battery drive + water pumping device (1J) outside the square turbine It is installed at the corner of the box to save and store water + heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compressing heat recovery + power generation method that collects and uses cold air heat, etc. Various energy conservation cycle coalescence engine. タービン翼断面(4E)を25倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4E) of 25 times + accelerating the water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine It is installed at the corner of the box to save and store water + heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compressing heat recovery + power generation method that collects and uses cold air heat, etc. Various energy conservation cycle coalescence engine. タービン翼断面(4F)を26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4F) of 26 times + accelerating water downwards + accelerating various battery-powered vessels + pumping device (1J) outside square turbine It is installed at the corner of the box to save and store water + heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compressing heat recovery + power generation method that collects and uses cold air heat, etc. Various energy conservation cycle coalescence engine. タービン翼断面(4A)を2倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with double turbine blade cross-section (4A) + accelerating the storage battery-powered vessels + pumping device (1J) outside square turbine It is installed at the corner of the box to save and store water + heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compressing heat recovery + power generation method that collects and uses cold air heat, etc. Various energy conservation cycle coalescence engine. タービン翼断面(4B)を3倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with three times the turbine blade cross section (4B) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine It is installed at the corner of the box to save and store water + heat production by compressing geothermal heating air and bringing it closer to 1200 degrees by repeating heating and compression heat recovery + power generation method that recovers and uses cold air and combined heat Various energy conservation cycle coalescence engine. タービン翼断面(4C)を4倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with four times the turbine blade cross-section (4C) + making hot and cold use primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) Increase the head + Pump the water pump (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it closer to 1200 degrees and repeat the heat recovery by heating and compressing heat recovery Manufacture + various energy storage cycle coalescence engine that accelerates water vertically downward and makes moving blades of three types of turbines have the same diameter and shape of each stage, fitted bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を5倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 5 times the turbine blade cross-section (4D) + making hot and cold use prime + collecting geothermal heat with geothermal air heater + pumping device (1J) Increase head drop + Water pump (1J) is installed at the corner of the square turbine outer box to save and store water + Heat that compresses geothermal heating air, approaches 1200 degrees, and repeats heat recovery by heating and compressing heat recovery Manufacture + various energy storage cycle coalescence engine that accelerates water vertically downward to make the rotor blade group of three types of turbines have the same diameter and shape of each stage and engages bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を6倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 6 times the turbine blade cross-section (4E) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) Increase head drop + Water pump (1J) is installed at the corner of the square turbine outer box to save and store water + Heat that compresses geothermal heating air, approaches 1200 degrees, and repeats heat recovery by heating and compressing heat recovery Manufacture + various energy conservation cycle coalescence engine that collects turbine blades of three types of turbines with the same diameter and the same shape for each stage by using accelerated rolling contact with water vertically downward, and a geothermal air heater that uses geothermal air heaters . タービン翼断面(4F)を7倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 7 times the turbine blade cross section (4F) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) Increase the head + Pump the water pump (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it closer to 1200 degrees and repeat the heat recovery by heating and compressing heat recovery Manufacture + various energy conservation cycle coalescence engine that collects turbine blades of three types of turbines with the same diameter and the same shape for each stage by using accelerated rolling contact with water vertically downward and driving the assembly with bolt assembly turbine + geothermal air heater . タービン翼断面(4A)を8倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 8 times the turbine blade cross section (4A) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) Increase head drop + Water pump (1J) is installed at the corner of the square turbine outer box to save and store water + Heat that compresses geothermal heating air, approaches 1200 degrees, and repeats heat recovery by heating and compressing heat recovery Manufacture + various energy storage cycle coalescing engines that accelerate the compressed air of water and make the rotor blades of the three types of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を9倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 9 times the turbine blade cross section (4B) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 10 times the turbine blade cross section (4C) + making hot water and cold energy primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water vertically downward A variety of energy storage cycle coalescing engines that combine three types of turbine blades with the same diameter and shape of each stage, and collect geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross section (4D) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross section (4E) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross-section (4F) + making hot and cold use primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating water with compressed air Various energy storage cycle coalescing engines that collect the turbine blades of the three types of power generation turbines with the same diameter and approximately the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を14倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 14 times the hydrogravity geothermal power generation generating turbine blade method + Accelerating the output increase sphere (2E) as a small diameter + compressing the geothermal heating air and approaching 1200 degrees Heat production by repeatedly heating and compressing heat recovery of air + Accelerating water vertically downward to make the blade groups of the three turbines have the same diameter and shape for each stage and recovering geothermal heat with a mating bolt assembly turbine drive + geothermal air heater Various energy conservation cycle coalescence engine. タービン翼断面(4B)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 15 times the hydrogravity geothermal power generation generating equipment method to make all turbine blades + power increase sphere (2E) with a small diameter to accelerate + compress the geothermal heating air close to 1200 degrees Heat production by repeatedly heating and compressing heat recovery of air + Accelerating water vertically downward, and moving blade groups of three types of turbines to the same diameter and shape for each stage, mating bolt assembly turbine drive + geothermal air recovery with geothermal air heater Various energy conservation cycle coalescence engine. タービン翼断面(4C)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 16 times the hydrogravity geothermal power generation generation equipment method to make all turbine blades + power increase sphere (2E) with a small diameter to accelerate + compress the geothermal heating air close to 1200 degrees Heat production by repeatedly heating and compressing heat recovery with air + Accelerating rolling contact with water vertically downwards The blades of the three types of turbines for power generation have the same diameter and the same shape for each stage with a fitting bolt assembly turbine drive + geothermal air heater Various energy storage cycle coalescing engines for geothermal recovery. タービン翼断面(4D)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 17 times the hydrogravity geothermal power generation generation equipment method to make all turbine blades + power increase sphere (2E) with a small diameter to accelerate + compress the geothermal heating air close to 1200 degrees Heat production by repeatedly heating and compressing heat recovery with air + Accelerating rolling contact with water vertically downwards The blades of the three types of turbines for power generation have the same diameter and the same shape for each stage with a fitting bolt assembly turbine drive + geothermal air heater Various energy storage cycle coalescing engines for geothermal recovery. タービン翼断面(4E)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 18 times the hydrogravity geothermal power generation generation equipment method to make all turbine blades + power increase sphere (2E) small diameter + accelerate geothermal heating air close to 1200 degrees Heat production by repeatedly heating and compressing heat recovery of air + Accelerating water by compressing air to generate three types of turbine blades of the power generation with the same diameter and shape of each stage, fitted bolt assembly turbine drive + geothermal air recovery with geothermal air heater Various energy conservation cycle coalescing engines. タービン翼断面(4F)を19倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+出力増大球(2E)を小径として加速タービン駆動する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward by providing multiple stages of hydrogravity geothermal turbines with 19 times the turbine blade cross section (4F) + Accelerating turbine driving with a small diameter of the output increase sphere (2E) + Geothermal heating air Compressed and heated close to 1200 degrees, heat production of another air repeatedly compressing heat recovery + accelerating water vertically downward to make the rotor blade group of three kinds of turbines have the same diameter and the same shape for each stage + assembly bolt assembly turbine drive + Various energy storage cycle coalescing engines that collect geothermal heat with a geothermal air heater. タービン翼断面(4A)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+出力増大球(2E)を小径として加速タービン駆動する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by vertically installing water gravity geothermal turbines with 20 times the turbine blade cross section (4A) + power increasing sphere (2E) with a small diameter to drive the acceleration turbine + geothermal heating air Compressed and heated close to 1200 degrees, heat production of another air repeatedly compressing heat recovery + accelerating water vertically downward to make the rotor blade group of three kinds of turbines have the same diameter and the same shape for each stage + assembly bolt assembly turbine drive + Various energy storage cycle coalescence engine that collects geothermal heat with a geothermal air heater. タービン翼断面(4B)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+出力増大球(2E)を小径として加速タービン駆動する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward by providing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4B) + Accelerating turbine driving with a small diameter of the output increasing sphere (2E) + Geothermal heating air Compressed and heated close to 1200 ° C Heat production by repeating the heat and compression heat recovery + Accelerated rolling contact with water vertically downward Contact the three blades of power generation turbines with the same diameter and the same shape for each stage Combined engine with various energy storage cycles that recovers geothermal energy using a turbine drive + geothermal air heater. タービン翼断面(4C)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+出力増大球(2E)を小径として加速タービン駆動する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically vertically by providing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4C) + Accelerating turbine driving with a small diameter of the output increasing sphere (2E) + Geothermal heating air Compressed and heated close to 1200 ° C Heat production by repeating the heat and compression heat recovery + Accelerated rolling contact with water vertically downward Contact the three blades of power generation turbines with the same diameter and the same shape for each stage Combined engine with various energy storage cycles that recovers geothermal energy using a turbine drive + geothermal air heater. タービン翼断面(4D)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+出力増大球(2E)を小径として加速タービン駆動する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward by providing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4D) + Accelerating turbine driving with a small diameter of the output increasing sphere (2E) + Geothermal heating air Compressed and heated close to 1200 degrees Heat production of another air repeatedly compressing heat recovery + Accelerating water with compressed air accelerating the moving blades of three types of turbines with the same diameter for each stage and fitting bolt assembly turbine drive + Various energy storage cycle coalescing engines that collect geothermal heat with a geothermal air heater タービン翼断面(4E)を24倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4E) + full electrified housing prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Accelerate water vertically downward, three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered by the fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を25倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4F) + full electrified house prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Accelerate water vertically downward, three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered by the fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of 26 times hydrogravity geothermal turbines with a turbine blade cross section (4A) + Fully electrified house prime + Pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Compressed geothermal air, heated to 1200 degrees, repeated heating and heat recovery for another air + Three types of turbines for power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same diameter and shape of each of the rotor blades in each paragraph, and geothermal recovery using a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を2倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4B) + full electrification house prime + water pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Compressed geothermal air, heated to 1200 degrees, repeated heating and heat recovery for another air + Three types of turbines for power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same diameter and shape of each of the rotor blades in each paragraph, and geothermal recovery using a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を3倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with three times the turbine blade cross section (4C) + full electrification house prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal air, heated to 1200 ° C, heated air repeatedly heating and compressing heat recovery + Accelerated water compressed air to accelerate three types of power generation turbines Various energy storage cycle coalescing engines, with the blade group having the same diameter and the same shape for each paragraph, and geothermal heat recovery using a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を4倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 4 times the turbine blade cross section (4D) + storage battery-powered various automobiles primed + a pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production by compressing heated air and bringing it closer to 1200 degrees Heat production by repeating heating and compressing heat recovery + Accelerating water vertically downward to make the three blades of blades of the same diameter approximately the same shape for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4E)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with 5 times the turbine blade cross section (4E) + accelerating storage battery-powered automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production by compressing heated air and bringing it closer to 1200 degrees Heat production by repeating heating and compressing heat recovery + Accelerating water vertically downward to make the three blades of blades of the same diameter approximately the same shape for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4F)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4F) + accelerating various battery-powered vehicles + pumping device (1J) at the corner of the square turbine outer box to save and save water + geothermal Heat production by compressing heated air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + water accelerating downward in contact with the vertical, and moving blade groups of three types of power generation turbines with the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 7 times the turbine blade cross section (4A) + storage battery powered various automobiles primed + a water pump (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production by compressing heated air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + water accelerating downward in contact with the vertical, and moving blade groups of three types of power generation turbines with the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with turbine blade cross-section (4B) 8 times + Storage battery powered various automobiles primed + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production compresses heated air close to 1200 ° C, heat production repeats heating and compression heat recovery + water is compressed air accelerated, and power generation of three types of turbine blades are fitted with the same diameter and shape for each paragraph Bolt assembly turbine drive + various energy storage cycle coalescence engine that collects geothermal heat with a geothermal air heater. タービン翼断面(4C)を9倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 9 times the turbine blade cross section (4C) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically and vertically by using multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4D) 10 times larger + Making hot and cold energy primed + Collecting geothermal heat with a geothermal air heater + Pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water vertically downward A variety of energy storage cycle coalescing engines that combine three types of turbine blades with the same diameter and shape of each stage, and collect geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross-section (4E) + making heat and cold use primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water rolling vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as contacts and has the same diameter and shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross-section (4F) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water rolling vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as contacts and has the same diameter and shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross section (4A) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を14倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 14 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 15 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 16 times as many hydrogravity geothermal power generation generating turbine blades + plant electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4E)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 17-fold hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner corner of square turbine and water stored up + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Various energy storage cycle coalescing engines with geometries recovered by a mating bolt assembly turbine drive + geothermal air heater as approximately the same shape. タービン翼断面(4F)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 18 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat recovery by collecting compressed air + Accelerating water by compressing air to generate three types of turbine blades for power generation with almost the same shape for each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine to recover geothermal with geothermal air heater. タービン翼断面(4A)を19倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 19-times hydrogravity geothermal turbines are installed in multiple stages to accelerate the water vertically + to make the best use of heat and cold + to collect geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water vertically downward A variety of energy storage cycle coalescing engines that combine three types of turbine blades with the same diameter and shape of each stage, and collect geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4B) 20 times larger + Making heat and cold use prime + Collecting geothermal heat with a geothermal air heater + Pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water vertically downward A variety of energy storage cycle coalescing engines that combine three types of turbine blades with the same diameter and shape of each stage, and collect geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4C) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4D) + making hot and cold use prime + collecting geothermal heat with geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water rolling vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as contacts and has the same diameter and shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4E) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating water with compressed air Various energy storage cycle coalescing engines that collect the turbine blades of the three types of power generation turbines with the same diameter and approximately the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を24倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4F) + Fully electrified house prime + Pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Accelerate water vertically downward, three types of turbine blades Various energy storage cycle coalescing engines that collect the geothermal heat with a fitting bolt assembly turbine drive + geothermal air heater, with the group having the same diameter and the same shape for each paragraph. タービン翼断面(4A)を25倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4A) + full electrification house prime + water pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Compressed geothermal air, heats it to 1200 degrees and heats another air repeatedly by heating and compressing heat recovery + Accelerates water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines that collect the geothermal heat with a fitting bolt assembly turbine drive + geothermal air heater, with the group having the same diameter and the same shape for each paragraph. タービン翼断面(4B)を26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat-retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 26 times the turbine blade cross-section (4B) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Compressed geothermal air, heated to 1200 degrees, repeated heating and heat recovery for another air + Three types of turbines for power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same diameter and shape of each of the rotor blades in each paragraph, and geothermal recovery using a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を2倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4C) + Fully electrified housing prime + Pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を3倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with three times the turbine blade cross section (4D) + full electrification house prime + water pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Compressed geothermal air and heated to 1200 degrees to heat another air repeatedly heating and compressing heat recovery + Accelerating water with compressed air and operating three types of power generation turbines Various energy storage cycle coalescing engines, with the blade group having the same diameter and the same shape for each paragraph, and geothermal heat recovery using a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を4倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 4 times the turbine blade cross section (4E) + accelerating storage battery-powered various automobiles + A water pump (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production by compressing heated air and bringing it closer to 1200 degrees Heat production by repeating heating and compressing heat recovery + Accelerating water vertically downward to make the three blades of blades of the same diameter approximately the same shape for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with assembly turbine drive + geothermal air heater. タービン翼断面(4F)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 5 times the turbine blade cross section (4F) + accelerating various battery-powered vehicles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production by compressing heated air and bringing it closer to 1200 degrees Heat production by repeating heating and compressing heat recovery + Accelerating water vertically downward to make the three blades of blades of the same diameter approximately the same shape for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with assembly turbine drive + geothermal air heater. タービン翼断面(4A)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4A) + accelerating storage battery-powered automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + geothermal Heat production by compressing heated air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + water accelerating downward in contact with the vertical, and moving blade groups of three types of power generation turbines with the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 7-fold hydrogravity geothermal power generation structure and method + battery-powered various automobiles primed + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production by compressing heated air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + water accelerating downward in contact with the vertical, and moving blade groups of three types of power generation turbines with the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4C) of 8 times + accelerating storage battery-powered automobiles + A pumping device (1J) is installed at the corner of a square turbine outer box to save and save water + geothermal Heat production compresses heated air close to 1200 ° C, heat production repeats heating and compression heat recovery + water is compressed air accelerated, and power generation of three types of turbine blades are fitted with the same diameter and shape for each paragraph Bolt assembly turbine drive + various energy storage cycle coalescence engine that collects geothermal heat with a geothermal air heater. タービン翼断面(4D)を9倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 9 times the turbine blade cross-section (4D) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with a turbine blade cross section (4E) 10 times higher + Making heat and cold energy primed + Collecting geothermal heat with a geothermal air heater + Pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross-section (4F) + making hot and cold use prime + collecting geothermal heat with geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 12 times the turbine blade cross section (4A) + making heat and cold use primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross-section (4B) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を14倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 14 times the hydrogravity geothermal power generation generating turbine blade method + factory electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 15 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square type turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 16 times as many hydrogravity geothermal power generation generating turbine blades + plant electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4F)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) with 17 times the hydrogravity geothermal power generation generating turbine blades + plant electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4A)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 18 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner of square turbine outer box to save water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat recovery by compressing and recovering heat + Accelerating water with compressed air and generating power to three types of turbine blades of the same diameter for each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine that recovers geothermal with geothermal air heater. タービン翼断面(4B)を19倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 19-times hydrogravity geothermal turbines are installed in multiple stages to accelerate water vertically downward + make hot and cold use prime + collect geothermal heat with geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4C) 20 times larger + Making hot and cold energy primed + Collecting geothermal heat with a geothermal air heater + Pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4D) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4E) + making hot and cold use prime + collecting geothermal heat with geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4F) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を24倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4A) + Fully electrified house prime + Pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store the water + Compressed geothermal air, heats it up to 1200 degrees and repeats the heat recovery by heating and compressing heat + Accelerates the water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を25倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4B) + full electrified house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store the water + Compressed geothermal air, heats it up to 1200 degrees and repeats the heat recovery by heating and compressing heat + Accelerates the water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of 26-times hydrogravity geothermal turbines with a turbine blade cross section (4C) + full electrification housing prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を2倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with double turbine blade cross-section (4D) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を3倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing three stages of hydrogravity geothermal turbines with three times the turbine blade cross section (4E) + full electrification house prime + water pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Accelerated water compressed air to accelerate three types of power generation turbines Various energy storage cycle coalescing engines, with the blade group having the same diameter and shape of each stage, and mating bolt assembly turbine drive + geothermal air recovery with a geothermal air heater. タービン翼断面(4F)を4倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 4 times the turbine blade cross section (4F) + accelerating various battery-powered vehicles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + geothermal Compressed heating air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + accelerating water vertically downward to make the three types of turbine blade groups into the same shape and shape with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4A)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 5 times the turbine blade cross section (4A) + accelerating various battery-powered vehicles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Compressed heating air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + accelerating water vertically downward to make the three types of turbine blade groups into the same shape and shape with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4B)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4B) + storage battery-powered various automobiles primed + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + water is accelerated and contacted vertically downward, and the blades of the three turbines for power generation have the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4C) of 7 times + accelerating various battery-powered automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + water is accelerated and contacted vertically downward, and the blades of the three turbines for power generation have the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with turbine blade cross-section (4D) 8 times + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of square turbine outer box + water is stored and stored + geothermal Heat production compresses heating air close to 1200 ° C, heat production repeats heat and compression heat recovery + Compresses water and accelerates compressed air, and power turbines are fitted with three blades of the same diameter and the same shape for each paragraph Bolt assembly turbine drive + various energy storage cycle coalescence engine that collects geothermal heat with a geothermal air heater. タービン翼断面(4E)を9倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 9 times the turbine blade cross-section (4E) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 10 times the turbine blade cross section (4F) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 12 times the turbine blade cross section (4A) + making heat and cold use primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross-section (4B) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 14 times the turbine blade cross section (4C) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 15 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square type turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 16 times as many hydrogravity geothermal power generation generating turbine blades + plant electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) with 17 times the hydrogravity geothermal power generation generating turbine blades + plant electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4A)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 18 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner of square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4B)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 19-times hydrogravity geothermal power generation generating turbine blade method + factory electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box and water is stored ascending + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat recovery by compressing and recovering heat + Accelerating water with compressed air and generating power to three types of turbine blades of the same diameter for each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine that recovers geothermal with geothermal air heater. タービン翼断面(4C)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4C) 20 times larger + Making hot and cold energy primed + Collecting geothermal heat with a geothermal air heater + Pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4D) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4E) + making hot and cold use prime + collecting geothermal heat with geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4F) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4A) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を25倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4B) + full electrified house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store the water + Compressed geothermal air, heats it up to 1200 degrees and repeats the heat recovery by heating and compressing heat + Accelerates the water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of 26-times hydrogravity geothermal turbines with a turbine blade cross section (4C) + full electrification housing prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store the water + Compressed geothermal air, heats it up to 1200 degrees and repeats the heat recovery by heating and compressing heat + Accelerates the water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を2倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with double turbine blade cross-section (4D) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を3倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing three stages of hydrogravity geothermal turbines with three times the turbine blade cross section (4E) + full electrification house prime + water pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を4倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine with a four-fold hydrogravity geothermal turbine with 4 times the turbine blade cross section (4F) + full electrification of the house + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Accelerated water compressed air to accelerate three types of power generation turbines Various energy storage cycle coalescing engines, with the blade group having the same diameter and shape of each stage, and mating bolt assembly turbine drive + geothermal air recovery with a geothermal air heater. タービン翼断面(4A)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 5 times the turbine blade cross section (4A) + accelerating various battery-powered vehicles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Compressed heating air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + accelerating water vertically downward to make the three types of turbine blade groups into the same shape and shape with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4B)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4B) + storage battery-powered various automobiles primed + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + geothermal Compressed heating air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + accelerating water vertically downward to make the three types of turbine blade groups into the same shape and shape with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4C)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4C) of 7 times + accelerating various battery-powered automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + water is accelerated and contacted vertically downward, and the blades of the three turbines for power generation have the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with turbine blade cross-section (4D) 8 times + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of square turbine outer box + water is stored and stored + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + water is accelerated and contacted vertically downward, and the blades of the three turbines for power generation have the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) structure and method of hydrogravity geothermal power generation with 9 times + storage battery-powered various automobiles primed + pumping device (1J) installed at the corner of square turbine outer box to save and save water + geothermal Heat production compresses heating air close to 1200 ° C, heat production repeats heat and compression heat recovery + Compresses water and accelerates compressed air, and power turbines are fitted with three blades of the same diameter and the same shape for each paragraph Bolt assembly turbine drive + various energy storage cycle coalescence engine that collects geothermal heat with a geothermal air heater. タービン翼断面(4F)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 10 times the turbine blade cross section (4F) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 11 times the turbine blade cross section (4A) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 12 times the turbine blade cross section (4B) + making heat and cold use primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross-section (4C) + making heat and cold use primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 14 times the turbine blade cross-section (4D) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 15 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner of square turbine outer box to save water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) with 16 times the hydrogravity geothermal power generation generating turbine blade method + factory electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 17-fold hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification primed + pumping device (1J) is installed at the corner of square turbine outer box and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4B)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 18-times hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner corner of square type turbine casing to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4C)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 19 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat recovery by compressing and recovering heat + Accelerating water with compressed air and generating power to three types of turbine blades of the same diameter for each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine that recovers geothermal with geothermal air heater. タービン翼断面(4D)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 20 times the turbine blade cross section (4D) + making hot and cold use prime + collecting geothermal heat with geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4E) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 22 times the turbine blade cross section (4F) + making hot and cold use prime + collecting geothermal heat with geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4A) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4B) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を25倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing a multi-stage hydrogravity geothermal turbine with a turbine blade cross section (4C) of 25 times + a fully electrified house prime + a pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store the water + Compressed geothermal air, heats it up to 1200 degrees and repeats the heat recovery by heating and compressing heat + Accelerates the water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 26 times the turbine blade cross section (4D) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store the water + Compressed geothermal air, heats it up to 1200 degrees and repeats the heat recovery by heating and compressing heat + Accelerates the water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を2倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4E) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を3倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing three stages of hydrogravity geothermal turbines with three times the turbine blade cross section (4F) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を4倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with four times the turbine blade cross section (4A) + full electrified house prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Accelerated water compressed air to accelerate three types of power generation turbines Various energy storage cycle coalescing engines, with the blade group having the same diameter and shape of each stage, and mating bolt assembly turbine drive + geothermal air recovery with a geothermal air heater. タービン翼断面(4B)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 5 times the turbine blade cross section (4B) + accelerating various battery-powered vehicles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + geothermal Compressed heating air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + accelerating water vertically downward to make the three types of turbine blade groups into the same shape and shape with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4C)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4C) + storage battery-powered various automobiles primed + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Compressed heating air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + accelerating water vertically downward to make the three types of turbine blade groups into the same shape and shape with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4D)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7-fold hydrogravity geothermal power generation structure and method + battery-powered various automobiles primed + A water pump (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + water is accelerated and contacted vertically downward, and the blades of the three turbines for power generation have the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with 8 times the turbine blade cross section (4E) + accelerating storage battery-powered automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + water is accelerated and contacted vertically downward, and the blades of the three turbines for power generation have the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9-fold hydrogravity geothermal power generation structure and method + storage battery driven various automobiles primed + water pumping device (1J) installed at the corner of square turbine outer box + water stored and saved + geothermal Heat production compresses heating air close to 1200 ° C, heat production repeats heat and compression heat recovery + Compresses water and accelerates compressed air, and power turbines are fitted with three blades of the same diameter and the same shape for each paragraph Bolt assembly turbine drive + various energy storage cycle coalescence engine that collects geothermal heat with a geothermal air heater. タービン翼断面(4A)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 10 times the turbine blade cross section (4A) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water vertically downward A variety of energy storage cycle coalescing engines that combine three types of turbine blades with the same diameter and shape of each stage, and collect geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross section (4B) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 12 times the turbine blade cross section (4C) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross section (4D) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal power generation turbines with 14 times the turbine blade cross section (4E) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times as many hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner of square turbine outer box to save water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17-fold hydrogravity geothermal power generation turbine equipment generation method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4C)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 18 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4D)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 19-times hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner corner of square turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat recovery by compressing and recovering heat + Accelerating water with compressed air and generating power to three types of turbine blades of the same diameter for each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine that recovers geothermal with geothermal air heater. タービン翼断面(4E)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 20 times the turbine blade cross section (4E) + Making heat and cold use prime + Collecting geothermal heat with a geothermal air heater + Pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4F) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4A) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4B) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4C) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を25倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4D) + full electrified house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store the water + Compressed geothermal air, heats it up to 1200 degrees and repeats the heat recovery by heating and compressing heat + Accelerates the water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a thermal insulation turbine by providing multiple stages of hydrogravity geothermal turbines with 26 times the turbine blade cross-section (4E) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store the water + Compressed geothermal air, heats it up to 1200 degrees and repeats the heat recovery by heating and compressing heat + Accelerates the water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を2倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4F) + Fully electrified house prime + Pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を3倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat insulation turbine by providing three stages of hydrogravity geothermal turbines with a turbine blade cross-section (4A) three times higher + a fully electrified house prime + a pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を4倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine with a four-fold hydrogravity geothermal turbine with a turbine blade cross-section (4B) + a fully electrified house prime + a pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Accelerated water compressed air to accelerate three types of power generation turbines Various energy storage cycle coalescing engines, with the blade group having the same diameter and shape of each stage, and mating bolt assembly turbine drive + geothermal air recovery with a geothermal air heater. タービン翼断面(4C)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 5 times the turbine blade cross section (4C) + accelerating various battery-powered vehicles + pumping equipment (1J) at the corner of the square turbine outer box to save and save water + geothermal Compressed heating air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + accelerating water vertically downward to make the three types of turbine blade groups into the same shape and shape with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4D)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4D) + storage battery powered various automobiles primed + a pumping device (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Compressed heating air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + accelerating water vertically downward to make the three types of turbine blade groups into the same shape and shape with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4E)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4E) of 7 times + accelerating various battery-powered automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + water is accelerated and contacted vertically downward, and the blades of the three turbines for power generation have the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4F) of 8 times + accelerating storage battery-powered automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + water is accelerated and contacted vertically downward, and the blades of the three turbines for power generation have the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 9-fold hydrogravity geothermal power generation structure and method + battery-powered various automobile primes + water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production compresses heating air close to 1200 ° C, heat production repeats heat and compression heat recovery + Compresses water and accelerates compressed air, and power turbines are fitted with three blades of the same diameter and the same shape for each paragraph Bolt assembly turbine drive + various energy storage cycle coalescence engine that collects geothermal heat with a geothermal air heater. タービン翼断面(4B)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 10 times the turbine blade cross section (4B) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 11 times the turbine blade cross section (4C) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross-section (4D) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal power generation turbines with 13 times the turbine blade cross section (4E) + making heat and cold use primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 14 times the turbine blade cross-section (4F) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 15 times hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + water pumping device (1J) installed at corner corner of square type turbine to save water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and compression heat recovery + Accelerating water vertically downward to make the three blades of turbine blades have the same diameter and shape of each stage Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 16-fold hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner corner of square type turbine and rising water to preserve + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 17 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) is installed at corner corner of square turbine to ascend and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4D)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 18-fold hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is raised and stored + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4E)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 19-fold hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner corner of square turbine to ascend and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat recovery by compressing and recovering heat + Accelerating water with compressed air and generating power to three types of turbine blades of the same diameter for each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine that recovers geothermal with geothermal air heater. タービン翼断面(4F)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4F) 20 times larger + Making heat and cold use prime + Collecting geothermal heat with a geothermal air heater + Pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4A) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4B) + Making hot and cold use prime + Collecting geothermal heat with geothermal air heater + Pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 23 times the turbine blade cross section (4C) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4D) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を25倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4E) + Fully electrified residential prime + Pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store the water + Compressed geothermal air, heats it up to 1200 degrees and repeats the heat recovery by heating and compressing heat + Accelerates the water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of 26-fold hydrogravity geothermal turbines with a turbine blade cross section (4F) + full electrified house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store the water + Compressed geothermal air, heats it up to 1200 degrees and repeats the heat recovery by heating and compressing heat + Accelerates the water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を2倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal power generation turbines with double turbine blade cross section (4A) + Fully electrified house prime + Pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を3倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing three stages of hydrogravity geothermal turbines with three times the turbine blade cross section (4B) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を4倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine with a four-fold hydrogravity geothermal turbine with a turbine blade cross section (4C) + a fully electrified house prime + a pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Compressed geothermal air and heated to 1200 degrees to heat another air repeatedly heating and compressing heat recovery + Accelerating water with compressed air and operating three types of power generation turbines Various energy storage cycle coalescing engines, with blade groups of the same diameter and shape of each stage, and geothermal recovery using mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 5 times the turbine blade cross section (4D) + accelerating various battery-powered vehicles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Compressed heating air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + accelerating water vertically downward to make the three types of turbine blade groups into the same shape and shape with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4E)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4E) + accelerating storage battery-powered various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Compressed heating air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + accelerating water vertically downward to make the three types of turbine blade groups into the same shape and shape with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4F)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 7-fold hydrogravity geothermal power generation structure and method + storage battery driven various automobiles prime + water pump (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + water is accelerated and contacted vertically downward, and the blades of the three turbines for power generation have the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4A) of 8 times + accelerating various battery-powered vehicles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + water is accelerated and contacted vertically downward, and the blades of the three turbines for power generation have the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 9-fold hydrogravity geothermal power generation structure and method + battery powered various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production compresses heating air close to 1200 ° C, heat production repeats heat and compression heat recovery + Compresses water and accelerates compressed air, and power turbines are fitted with three blades of the same diameter and the same shape for each paragraph Bolt assembly turbine drive + various energy storage cycle coalescence engine that collects geothermal heat with a geothermal air heater. タービン翼断面(4C)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 10 times the turbine blade cross section (4C) + making hot water and cold energy primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water vertically downward A variety of energy storage cycle coalescing engines that combine three types of turbine blades with the same diameter and shape of each stage, and collect geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross section (4D) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross section (4E) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically and vertically by using multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross section (4F) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 14 times the turbine blade cross section (4A) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 15 times as many hydrogravity geothermal power generation generating turbine blades + plant electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 16 times as many hydrogravity geothermal power generation generating turbine blades + plant electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 17-fold hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is raised and stored + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4E)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 18-fold hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4F)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 19 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat recovery by compressing and recovering heat + Accelerating water with compressed air and generating power to three types of turbine blades of the same diameter for each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine that recovers geothermal with geothermal air heater. タービン翼断面(4A)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 20 times the turbine blade cross section (4A) + making hot water and cold energy primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4B) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4C) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4D) + making hot and cold use prime + collecting geothermal heat with geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4E) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を25倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4F) + full electrified house prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Accelerate water vertically downward, three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered by the fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of 26 times hydrogravity geothermal turbines with a turbine blade cross section (4A) + Fully electrified house prime + Pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store the water + Compressed geothermal air, heats it up to 1200 degrees and repeats the heat recovery by heating and compressing heat + Accelerates the water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を2倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4B) + full electrification house prime + water pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Compressed geothermal air, heated to 1200 degrees, repeated heating and heat recovery for another air + Three types of turbines for power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same diameter and shape of each of the rotor blades in each paragraph, and geothermal recovery using a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を3倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing three stages of turbine blade cross-sections (4C) in multiple stages, and making the whole house electrified primed + pumping equipment (1J) a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を4倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine with a four-fold hydrogravity geothermal turbine with 4 times the turbine blade cross section (4D) + full electrification of the house + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Accelerated water compressed air to accelerate three types of power generation turbines Various energy storage cycle coalescing engines, with the blade group having the same diameter and shape of each stage, and mating bolt assembly turbine drive + geothermal air recovery with a geothermal air heater. タービン翼断面(4E)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with 5 times the turbine blade cross section (4E) + accelerating storage battery-powered automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production by compressing heated air and bringing it closer to 1200 degrees Heat production by repeating heating and compressing heat recovery + Accelerating water vertically downward to make the three blades of blades of the same diameter approximately the same shape for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4F)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4F) + accelerating storage battery-powered various automobiles + A water pump (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Compressed heating air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + accelerating water vertically downward to make the three types of turbine blade groups into the same shape and shape with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4A)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 7 times the turbine blade cross section (4A) + storage battery powered various automobiles primed + a water pump (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production by compressing heated air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + water accelerating downward in contact with the vertical, and moving blade groups of three types of power generation turbines with the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4B) 8 times + storage battery powered various automobiles primed + a pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + water is accelerated and contacted vertically downward, and the blades of the three turbines for power generation have the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 9-fold hydrogravity geothermal power generation structure and method + battery-powered various automobile primes + water pumping device (1J) is installed at the corner of the square turbine outer casing + water is stored up + geothermal Heat production compresses heating air close to 1200 ° C, heat production repeats heat and compression heat recovery + Compresses water and accelerates compressed air, and power turbines are fitted with three blades of the same diameter and the same shape for each paragraph Bolt assembly turbine drive + various energy storage cycle coalescence engine that collects geothermal heat with a geothermal air heater. タービン翼断面(4D)を10倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating 10 times the hydrogravity generated water vertically down the turbine blade cross section (4D) + + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store the water + Geothermal heating air Compressed and heated close to 1200 degrees Heating of different air heat and repeated heat recovery + Accelerated water vertically downward to make the turbine blade group of three types of turbines have the same diameter and the same shape for each stage + Assembly bolt assembly turbine drive + Various energy storage cycle coalescing engines that collect geothermal heat with a geothermal air heater. タービン翼断面(4E)を11倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the water gravity power generation water 11 times lower than the turbine blade cross section (4E) + + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water + Geothermal heating air Compressed and heated close to 1200 degrees Heating of different air heat and repeated heat recovery + Accelerated water vertically downward to make the turbine blade group of three types of turbines have the same diameter and the same shape for each stage + Assembly bolt assembly turbine drive + Various energy storage cycle coalescing engines that collect geothermal heat with a geothermal air heater. タービン翼断面(4F)を12倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Configuration and method of accelerating 12 times the hydrogravity generated water vertically down the turbine blade cross section (4F) + + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store the water + Geothermal heating air Compressed and heated close to 1200 ° C Heat production by repeating the heat and compression heat recovery + Accelerated rolling contact with water vertically downward Contact the three blades of power generation turbines with the same diameter and the same shape for each stage Combined engine with various energy storage cycles that recovers geothermal energy using a turbine drive + geothermal air heater. タービン翼断面(4A)を13倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating 13 times the hydrogravity generated water vertically down the turbine blade cross section (4A) + + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store the water + Geothermal heating air Compressed and heated close to 1200 ° C Heat production by repeating the heat and compression heat recovery + Accelerated rolling contact with water vertically downward Contact the three blades of power generation turbines with the same diameter and the same shape for each stage Combined engine with various energy storage cycles that recovers geothermal energy using a turbine drive + geothermal air heater. タービン翼断面(4B)を14倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating 14 times the hydrogravity power generation vertically down the turbine blade cross section (4B) + + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water + Geothermal heating air Compressed and heated close to 1200 degrees Heating of different air heat and repeated heat recovery + Compressed water is accelerated with compressed air and the blades of the three turbines for power generation are fitted to each stage with the same diameter and shape and fitted bolt assembly turbine drive + Various energy storage cycle coalescing engines that collect geothermal heat with a geothermal air heater. タービン翼断面(4C)を15倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Configuration and method of accelerating 15 times the hydrogravity power generated vertically by the turbine blade cross section (4C) + + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water + Geothermal heating air Compressed and heated close to 1200 degrees Heating of different air heat and repeated heat recovery + Accelerated water vertically downward to make the turbine blade group of three types of turbines have the same diameter and the same shape for each stage + Assembly bolt assembly turbine drive + Various energy storage cycle coalescing engines that collect geothermal heat with a geothermal air heater. タービン翼断面(4D)を16倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating 16 times the hydrogravity generated water vertically down the turbine blade cross section (4D) + + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store the water + Geothermal heating air Compressed and heated close to 1200 degrees Heating of different air heat and repeated heat recovery + Accelerated water vertically downward to make the turbine blade group of three types of turbines have the same diameter and the same shape for each stage + Assembly bolt assembly turbine drive + Various energy storage cycle coalescing engines that collect geothermal heat with a geothermal air heater. タービン翼断面(4E)を17倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A configuration and method for accelerating 17 times the hydrogravity generated water vertically down the turbine blade cross section (4E) + + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store the water + Geothermal heating air Compressed and heated close to 1200 ° C Heat production by repeating the heat and compression heat recovery + Accelerated rolling contact with water vertically downward Contact the three blades of power generation turbines with the same diameter and the same shape for each stage Combined engine with various energy storage cycles that recovers geothermal energy using a turbine drive + geothermal air heater. タービン翼断面(4F)を18倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating 18 times the hydrogravity generated water vertically down the turbine blade cross section (4F) + + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save the water + Geothermal heating air Compressed and heated close to 1200 ° C Heat production by repeating the heat and compression heat recovery + Accelerated rolling contact with water vertically downward Contact the three blades of power generation turbines with the same diameter and the same shape for each stage Combined engine with various energy storage cycles that recovers geothermal energy using a turbine drive + geothermal air heater. タービン翼断面(4A)を19倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 19-fold hydrogravity power generation configuration and method + ++ A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal heating air Compressed and heated close to 1200 degrees Heating of different air heat and repeated heat recovery + Compressed water is accelerated with compressed air and the blades of the three turbines for power generation are fitted to each stage with the same diameter and shape and fitted bolt assembly turbine drive + Various energy storage cycle coalescing engines that collect geothermal heat with a geothermal air heater. タービン翼断面(4B)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4B) 20 times larger + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4C) + making the storage battery driven various ships primed + pumping equipment (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4D) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4E) + accelerating the storage battery-powered vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the water vertically by installing multi-stage hydrogravity geothermal turbines with 24 times the turbine blade cross section (4F) + accelerating water storage batteries + pumping equipment (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Compressed water is accelerated to generate three types of turbine blades for power generation Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を25倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4A) + storage battery-driven various ships primed + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 26 times the turbine blade cross section (4B) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を2倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with twice the turbine blade cross section (4C) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を3倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 3 times the turbine blade cross section (4D) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を4倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 4 times the turbine blade cross section (4E) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を5倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 5 times the turbine blade cross section (4F) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を6倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 6 times the turbine blade cross section (4A) + storage battery-driven various ships primed + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を7倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 7 times the turbine blade cross section (4B) + making the storage battery driven various vessels primed + pumping equipment (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を8倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 8 times the turbine blade cross section (4C) + accelerating water storage + various types of vessels driven + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を9倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 9 times the turbine blade cross section (4D) + accelerating the storage battery drive + water pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4E) of 10 times + accelerating water downwards + accelerating various battery-powered vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross-section (4F) + accelerating the water storage + various types of vessels driven + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross section (4A) + storage battery-powered various ships primed + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines that make the rotor blade group into the same shape and shape with the same diameter for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross section (4B) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 14 times the turbine blade cross section (4C) + accelerating the water storage + driving the storage battery drive + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を15倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 15 times the turbine blade cross section (4D) + accelerating the storage battery-powered various ships + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を16倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 16 times the turbine blade cross section (4E) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を17倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 17 times the turbine blade cross section (4F) + storage battery-powered various ships prime + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を18倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 18 times the turbine blade cross section (4A) + storage battery-driven various ships primed + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を19倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 19 times the turbine blade cross section (4B) + accelerating water vertically + various battery-powered vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4C) of 20 times + accelerating the water vertically + accelerating various battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Compressed water is accelerated to generate three types of turbine blades for power generation Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4D) + accelerating the storage battery drive + the pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Compressed water is accelerated to generate three types of turbine blades for power generation Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4E) + accelerating the water storage + various types of vessels driven + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Compressed water is accelerated to generate three types of turbine blades for power generation Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4F) of 23 times + accelerating water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Compressed water is accelerated to generate three types of turbine blades for power generation Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross-section (4A) + storage battery-powered various ships primed + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Compressed water is accelerated to generate three types of turbine blades for power generation Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4b)を25倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4b) of 25 times + accelerating water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine It is installed at the corner of the box to save and store water + heat production by compressing geothermal heating air and bringing it closer to 1200 degrees by repeating heating and compression heat recovery + power generation method that recovers and uses cold air and combined heat Various energy conservation cycle coalescence engine. タービン翼断面(4C)を26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 26 times the turbine blade cross section (4C) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine It is installed at the corner of the box to save and store water + heat production by compressing geothermal heating air and bringing it closer to 1200 degrees by repeating heating and compression heat recovery + power generation method that recovers and uses cold air and combined heat Various energy conservation cycle coalescence engine. タービン翼断面(4D)を2倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with double turbine blade cross section (4D) + accelerating the storage battery drive + pumping device (1J) outside square turbine It is installed at the corner of the box to save and store water + heat production by compressing geothermal heating air and bringing it closer to 1200 degrees by repeating heating and compression heat recovery + power generation method that recovers and uses cold air and combined heat Various energy conservation cycle coalescence engine. タービン翼断面(4E)を3倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with three times the turbine blade cross section (4E) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine It is installed at the corner of the box to save and store water + heat production by compressing geothermal heating air and bringing it closer to 1200 degrees by repeating heating and compression heat recovery + power generation method that recovers and uses cold air and combined heat Various energy conservation cycle coalescence engine. タービン翼断面(4F)を4倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with four times the turbine blade cross section (4F) + accelerating the storage battery drive + water pumping device (1J) outside the square turbine It is installed at the corner of the box to save and store water + heat production by compressing geothermal heating air and bringing it closer to 1200 degrees by repeating heating and compression heat recovery + power generation method that recovers and uses cold air and combined heat Various energy conservation cycle coalescence engine. タービン翼断面(4A)を5倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差を可能な限り上昇+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 5 times the turbine blade cross section (4A) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) Raise the head as much as possible + Install a pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal air and bring it closer to 1200 degrees to heat the compressed air Heat production with repeated recovery + Accelerating water vertically downward and combining the blades of three types of turbines with the same diameter and shape of each stage, fitted bolt assembly turbine drive + various energy storage cycles combined with geothermal air recovery with geothermal air heater organ. タービン翼断面(4B)を6倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差を可能な限り上昇+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 6 times the turbine blade cross section (4B) + making hot and cold use prime + collecting geothermal heat with geothermal air heater + pumping device (1J) Raise the head as much as possible + Install a pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal air and bring it closer to 1200 degrees to heat the compressed air Heat production with repeated recovery + Accelerating water vertically downward and combining the blades of three types of turbines with the same diameter and shape of each stage, fitted bolt assembly turbine drive + various energy storage cycles combined with geothermal air recovery with geothermal air heater organ. タービン翼断面(4C)を7倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差を可能な限り上昇+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 7 times the turbine blade cross section (4C) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) Raise the head as much as possible + Install a pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal air and bring it closer to 1200 degrees to heat the compressed air Heat production that repeats recovery + Accelerated rolling contact with water vertically downwards The blades of the three types of power generation turbines have the same diameter and the same shape for each stage, fitted bolt assembly turbine drive + various energies for geothermal recovery with a geothermal air heater Conservation cycle coalescence organization. タービン翼断面(4D)を8倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差を可能な限り上昇+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 8 times the turbine blade cross-section (4D) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) Raise the head as much as possible + Install a pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal air and bring it closer to 1200 degrees to heat the compressed air Heat production that repeats recovery + Accelerated rolling contact with water vertically downwards The blades of the three types of power generation turbines have the same diameter and the same shape for each stage, fitted bolt assembly turbine drive + various energies for geothermal recovery with a geothermal air heater Conservation cycle coalescence organization. タービン翼断面(4E)を9倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差を可能な限り上昇+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 9 times the turbine blade cross-section (4E) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) Raise the head as much as possible + Install a pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal air and bring it closer to 1200 degrees to heat the compressed air Heat production that repeats recovery + Accelerating water with compressed air and moving blades of three types of power generation turbines with the same diameter and shape of each stage, fitted bolt assembly turbine drive + various energy storage cycles to recover geothermal heat with a geothermal air heater Combined organization. タービン翼断面(4F)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 10 times the turbine blade cross section (4F) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 11 times the turbine blade cross section (4A) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 12 times the turbine blade cross section (4B) + making heat and cold use primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross-section (4C) + making heat and cold use primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 14 times the turbine blade cross-section (4D) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 15 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner of square turbine outer box to save water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) with 16 times the hydrogravity geothermal power generation generating turbine blade method + factory electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 17-fold hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification primed + pumping device (1J) is installed at the corner of square turbine outer box and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4B)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 18-times hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner corner of square type turbine casing to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4C)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 19 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat recovery by compressing and recovering heat + Accelerating water with compressed air and generating power to three types of turbine blades of the same diameter for each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine that recovers geothermal with geothermal air heater. タービン翼断面(4D)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 20 times the turbine blade cross section (4D) + making hot and cold use prime + collecting geothermal heat with geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4E) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 22 times the turbine blade cross section (4F) + making hot and cold use prime + collecting geothermal heat with geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4A) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4B) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を25倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing a multi-stage hydrogravity geothermal turbine with a turbine blade cross section (4C) of 25 times + a fully electrified house prime + a pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store the water + Compressed geothermal air, heats it up to 1200 degrees and repeats the heat recovery by heating and compressing heat + Accelerates the water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 26 times the turbine blade cross section (4D) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store the water + Compressed geothermal air, heats it up to 1200 degrees and repeats the heat recovery by heating and compressing heat + Accelerates the water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を2倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4E) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を3倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing three stages of hydrogravity geothermal turbines with three times the turbine blade cross section (4F) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を4倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with four times the turbine blade cross section (4A) + full electrified house prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Accelerated water compressed air to accelerate three types of power generation turbines Various energy storage cycle coalescing engines, with the blade group having the same diameter and shape of each stage, and mating bolt assembly turbine drive + geothermal air recovery with a geothermal air heater. タービン翼断面(4B)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 5 times the turbine blade cross section (4B) + accelerating various battery-powered vehicles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + geothermal Compressed heating air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + accelerating water vertically downward to make the three types of turbine blade groups into the same shape and shape with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4C)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4C) + storage battery-powered various automobiles primed + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Compressed heating air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + accelerating water vertically downward to make the three types of turbine blade groups into the same shape and shape with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4D)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7-fold hydrogravity geothermal power generation structure and method + battery-powered various automobiles primed + A water pump (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + water is accelerated and contacted vertically downward, and the blades of the three turbines for power generation have the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with 8 times the turbine blade cross section (4E) + accelerating storage battery-powered automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + water is accelerated and contacted vertically downward, and the blades of the three turbines for power generation have the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9-fold hydrogravity geothermal power generation structure and method + storage battery driven various automobiles primed + water pumping device (1J) installed at the corner of square turbine outer box + water stored and saved + geothermal Heat production compresses heating air close to 1200 ° C, heat production repeats heat and compression heat recovery + Compresses water and accelerates compressed air, and power turbines are fitted with three blades of the same diameter and the same shape for each paragraph Bolt assembly turbine drive + various energy storage cycle coalescence engine that collects geothermal heat with a geothermal air heater. タービン翼断面(4A)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4A) of 10 times + ++ A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross section (4B) + + pumping device (1J) is installed at the corner of the square turbine outer box to store and ascend the water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward by providing multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross section (4C) + + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4D)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross-section (4D) + + Pumping device (1J) is installed at the corner of the square turbine outer box and the water is raised and stored + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4E)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward by providing multiple stages of hydrogravity geothermal turbines with 14 times the turbine blade cross section (4E) + + A pumping device (1J) is installed at the corner of the square turbine outer box to preserve the water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat recovery by compressing and recovering heat + Accelerating water with compressed air and generating power to three types of turbine blades of the same diameter for each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine to recover geothermal with geothermal air heater. タービン翼断面(4F)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times as many hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner of square turbine outer box to save water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17-fold hydrogravity geothermal power generation turbine equipment generation method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4C)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 18 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4D)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 19-times hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner corner of square turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat recovery by compressing and recovering heat + Accelerating water with compressed air and generating power to three types of turbine blades of the same diameter for each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine that recovers geothermal with geothermal air heater. タービン翼断面(4E)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 20 times the turbine blade cross section (4E) + Making heat and cold use prime + Collecting geothermal heat with a geothermal air heater + Pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4F) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4A) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4B) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4C) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を25倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4D) + full electrified house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store the water + Compressed geothermal air, heats it up to 1200 degrees and repeats the heat recovery by heating and compressing heat + Accelerates the water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a thermal insulation turbine by providing multiple stages of hydrogravity geothermal turbines with 26 times the turbine blade cross-section (4E) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store the water + Compressed geothermal air, heats it up to 1200 degrees and repeats the heat recovery by heating and compressing heat + Accelerates the water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を2倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4F) + Fully electrified house prime + Pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を3倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat insulation turbine by providing three stages of hydrogravity geothermal turbines with a turbine blade cross-section (4A) three times higher + a fully electrified house prime + a pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を4倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine with a four-fold hydrogravity geothermal turbine with a turbine blade cross-section (4B) + a fully electrified house prime + a pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Accelerated water compressed air to accelerate three types of power generation turbines Various energy storage cycle coalescing engines, with the blade group having the same diameter and shape of each stage, and mating bolt assembly turbine drive + geothermal air recovery with a geothermal air heater. タービン翼断面(4C)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 5 times the turbine blade cross section (4C) + accelerating various battery-powered vehicles + pumping equipment (1J) at the corner of the square turbine outer box to save and save water + geothermal Compressed heating air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + accelerating water vertically downward to make the three types of turbine blade groups into the same shape and shape with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4D)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4D) + storage battery powered various automobiles primed + a pumping device (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Compressed heating air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + accelerating water vertically downward to make the three types of turbine blade groups into the same shape and shape with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4E)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4E) of 7 times + accelerating various battery-powered automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + water is accelerated and contacted vertically downward, and the blades of the three turbines for power generation have the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4F) of 8 times + accelerating storage battery-powered automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + water is accelerated and contacted vertically downward, and the blades of the three turbines for power generation have the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 9-fold hydrogravity geothermal power generation structure and method + battery-powered various automobile primes + water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production compresses heating air close to 1200 ° C, heat production repeats heat and compression heat recovery + Compresses water and accelerates compressed air, and power turbines are fitted with three blades of the same diameter and the same shape for each paragraph Bolt assembly turbine drive + various energy storage cycle coalescence engine that collects geothermal heat with a geothermal air heater. タービン翼断面(4B)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 10 times the turbine blade cross section (4B) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 11 times the turbine blade cross section (4C) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross-section (4D) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal power generation turbines with 13 times the turbine blade cross section (4E) + making heat and cold use primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 14 times the turbine blade cross-section (4F) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 15 times hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + water pumping device (1J) installed at corner corner of square type turbine to save water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and compression heat recovery + Accelerating water vertically downward to make the three blades of turbine blades have the same diameter and shape of each stage Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 16-fold hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner corner of square type turbine and rising water to preserve + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 17 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) is installed at corner corner of square turbine to ascend and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4D)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 18-fold hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is raised and stored + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4E)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 19-fold hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner corner of square turbine to ascend and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat recovery by compressing and recovering heat + Accelerating water with compressed air and generating power to three types of turbine blades of the same diameter for each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine that recovers geothermal with geothermal air heater. タービン翼断面(4F)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4F) 20 times larger + Making heat and cold use prime + Collecting geothermal heat with a geothermal air heater + Pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4A) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4B) + Making hot and cold use prime + Collecting geothermal heat with geothermal air heater + Pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 23 times the turbine blade cross section (4C) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4D) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を25倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4E) + Fully electrified residential prime + Pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store the water + Compressed geothermal air, heats it up to 1200 degrees and repeats the heat recovery by heating and compressing heat + Accelerates the water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of 26-fold hydrogravity geothermal turbines with a turbine blade cross section (4F) + full electrified house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store the water + Compressed geothermal air, heats it up to 1200 degrees and repeats the heat recovery by heating and compressing heat + Accelerates the water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を2倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal power generation turbines with double turbine blade cross section (4A) + Fully electrified house prime + Pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を3倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing three stages of hydrogravity geothermal turbines with three times the turbine blade cross section (4B) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を4倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine with a four-fold hydrogravity geothermal turbine with a turbine blade cross section (4C) + a fully electrified house prime + a pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Compressed geothermal air and heated to 1200 degrees to heat another air repeatedly heating and compressing heat recovery + Accelerating water with compressed air and operating three types of power generation turbines Various energy storage cycle coalescing engines, with blade groups of the same diameter and shape of each stage, and geothermal recovery using mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 5 times the turbine blade cross section (4D) + accelerating various battery-powered vehicles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Compressed heating air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + accelerating water vertically downward to make the three types of turbine blade groups into the same shape and shape with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4E)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4E) + accelerating storage battery-powered various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Compressed heating air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + accelerating water vertically downward to make the three types of turbine blade groups into the same shape and shape with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4F)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 7-fold hydrogravity geothermal power generation structure and method + storage battery driven various automobiles prime + water pump (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + water is accelerated and contacted vertically downward, and the blades of the three turbines for power generation have the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4A) of 8 times + accelerating various battery-powered vehicles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + water is accelerated and contacted vertically downward, and the blades of the three turbines for power generation have the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 9-fold hydrogravity geothermal power generation structure and method + battery powered various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production compresses heating air close to 1200 ° C, heat production repeats heat and compression heat recovery + Compresses water and accelerates compressed air, and power turbines are fitted with three blades of the same diameter and the same shape for each paragraph Bolt assembly turbine drive + various energy storage cycle coalescence engine that collects geothermal heat with a geothermal air heater. タービン翼断面(4C)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 10 times the turbine blade cross section (4C) + making hot water and cold energy primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water vertically downward A variety of energy storage cycle coalescing engines that combine three types of turbine blades with the same diameter and shape of each stage, and collect geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross section (4D) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross section (4E) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically and vertically by using multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross section (4F) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 14 times the turbine blade cross section (4A) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 15 times as many hydrogravity geothermal power generation generating turbine blades + plant electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 16 times as many hydrogravity geothermal power generation generating turbine blades + plant electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 17-fold hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is raised and stored + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4E)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 18-fold hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4F)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 19 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat recovery by compressing and recovering heat + Accelerating water with compressed air and generating power to three types of turbine blades of the same diameter for each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine that recovers geothermal with geothermal air heater. タービン翼断面(4A)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 20 times the turbine blade cross section (4A) + making hot water and cold energy primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4B) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4C) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4D) + making hot and cold use prime + collecting geothermal heat with geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4E) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を25倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4F) + full electrified house prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Accelerate water vertically downward, three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered by the fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of 26 times hydrogravity geothermal turbines with a turbine blade cross section (4A) + Fully electrified house prime + Pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store the water + Compressed geothermal air, heats it up to 1200 degrees and repeats the heat recovery by heating and compressing heat + Accelerates the water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を2倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4B) + full electrification house prime + water pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Compressed geothermal air, heated to 1200 degrees, repeated heating and heat recovery for another air + Three types of turbines for power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same diameter and shape of each of the rotor blades in each paragraph, and geothermal recovery using a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を3倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing three stages of turbine blade cross-sections (4C) in multiple stages, and making the whole house electrified primed + pumping equipment (1J) a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を4倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine with a four-fold hydrogravity geothermal turbine with 4 times the turbine blade cross section (4D) + full electrification of the house + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Accelerated water compressed air to accelerate three types of power generation turbines Various energy storage cycle coalescing engines, with the blade group having the same diameter and shape of each stage, and mating bolt assembly turbine drive + geothermal air recovery with a geothermal air heater. タービン翼断面(4E)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with 5 times the turbine blade cross section (4E) + accelerating storage battery-powered automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production by compressing heated air and bringing it closer to 1200 degrees Heat production by repeating heating and compressing heat recovery + Accelerating water vertically downward to make the three blades of blades of the same diameter approximately the same shape for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4F)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4F) + accelerating storage battery-powered various automobiles + A water pump (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Compressed heating air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + accelerating water vertically downward to make the three types of turbine blade groups into the same shape and shape with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4A)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 7 times the turbine blade cross section (4A) + storage battery powered various automobiles primed + a water pump (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production by compressing heated air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + water accelerating downward in contact with the vertical, and moving blade groups of three types of power generation turbines with the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4B) 8 times + storage battery powered various automobiles primed + a pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + water is accelerated and contacted vertically downward, and the blades of the three turbines for power generation have the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 9-fold hydrogravity geothermal power generation structure and method + battery-powered various automobile primes + water pumping device (1J) is installed at the corner of the square turbine outer casing + water is stored up + geothermal Heat production compresses heating air close to 1200 ° C, heat production repeats heat and compression heat recovery + Compresses water and accelerates compressed air, and power turbines are fitted with three blades of the same diameter and the same shape for each paragraph Bolt assembly turbine drive + various energy storage cycle coalescence engine that collects geothermal heat with a geothermal air heater. タービン翼断面(4D)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically and vertically by using multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4D) 10 times larger + Making hot and cold energy primed + Collecting geothermal heat with a geothermal air heater + Pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water vertically downward A variety of energy storage cycle coalescing engines that combine three types of turbine blades with the same diameter and shape of each stage, and collect geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross-section (4E) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross-section (4F) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water rolling vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as contacts and has the same diameter and shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross section (4A) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 14 times the turbine blade cross section (4B) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 15 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 16 times as many hydrogravity geothermal power generation generating turbine blades + plant electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 17-fold hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner corner of square turbine and water stored up + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Various energy storage cycle coalescing engines with geometries recovered by a mating bolt assembly turbine drive + geothermal air heater as approximately the same shape. タービン翼断面(4F)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 18 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square type turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4A)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 19 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat recovery by compressing and recovering heat + Accelerating water with compressed air and generating power to three types of turbine blades of the same diameter for each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine to recover geothermal with geothermal air heater. タービン翼断面(4B)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4B) 20 times larger + Making heat and cold use prime + Collecting geothermal heat with a geothermal air heater + Pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water vertically downward A variety of energy storage cycle coalescing engines that combine three types of turbine blades with the same diameter and shape of each stage, and collect geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4C) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4D) + making hot and cold use prime + collecting geothermal heat with geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water rolling vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as contacts and has the same diameter and shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross-section (4E) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4F) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を25倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4A) + full electrification house prime + water pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Compressed geothermal air, heats it to 1200 degrees and heats another air repeatedly by heating and compressing heat recovery + Accelerates water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines that collect the geothermal heat with a fitting bolt assembly turbine drive + geothermal air heater, with the group having the same diameter and the same shape for each paragraph. タービン翼断面(4B)を26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat-retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 26 times the turbine blade cross-section (4B) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store the water + Compressed geothermal air, heats it up to 1200 degrees and repeats the heat recovery by heating and compressing heat + Accelerates the water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を2倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4C) + Fully electrified housing prime + Pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を3倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with three times the turbine blade cross section (4D) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を4倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine with a turbine blade cross-section (4E) four times as many as a gravity gravity geothermal power generation turbine + full electrification house prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Accelerated water compressed air to accelerate three types of power generation turbines Various energy storage cycle coalescing engines, with the blade group having the same diameter and shape of each stage, and mating bolt assembly turbine drive + geothermal air recovery with a geothermal air heater. タービン翼断面(4F)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 5 times the turbine blade cross section (4F) + accelerating various battery-powered vehicles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production by compressing heated air and bringing it closer to 1200 degrees Heat production by repeating heating and compressing heat recovery + Accelerating water vertically downward to make the three blades of blades of the same diameter approximately the same shape for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with assembly turbine drive + geothermal air heater. タービン翼断面(4A)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4A) + accelerating storage battery-powered automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + geothermal Compressed heating air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + accelerating water vertically downward to make the three types of turbine blade groups into the same shape and shape with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with assembly turbine drive + geothermal air heater. タービン翼断面(4B)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 7-fold hydrogravity geothermal power generation structure and method + battery-powered various automobiles primed + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production by compressing heated air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + water accelerating downward in contact with the vertical, and moving blade groups of three types of power generation turbines with the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4C) of 8 times + storage battery powered various automobiles primed + a pumping device (1J) installed at the corner of the square turbine outer box + water stored and saved + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + water is accelerated and contacted vertically downward, and the blades of the three turbines for power generation have the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 9-fold hydrogravity geothermal power generation structure and method + storage battery driven various automobiles prime + water pump (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production compresses heating air close to 1200 ° C, heat production repeats heat and compression heat recovery + Compresses water and accelerates compressed air, and power turbines are fitted with three blades of the same diameter and the same shape for each paragraph Bolt assembly turbine drive + various energy storage cycle coalescence engine that collects geothermal heat with a geothermal air heater. タービン翼断面(4E)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with a turbine blade cross section (4E) 10 times higher + Making heat and cold energy primed + Collecting geothermal heat with a geothermal air heater + Pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross-section (4F) + making hot and cold use prime + collecting geothermal heat with geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 12 times the turbine blade cross section (4A) + making heat and cold use primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross-section (4B) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 14 times the turbine blade cross section (4C) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 15 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square type turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 16 times as many hydrogravity geothermal power generation generating turbine blades + plant electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) with 17 times the hydrogravity geothermal power generation generating turbine blades + plant electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4A)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 18 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner of square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4B)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 19-times hydrogravity geothermal power generation generating turbine blade method + factory electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box and water is stored ascending + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat recovery by compressing and recovering heat + Accelerating water with compressed air and generating power to three types of turbine blades of the same diameter for each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine that recovers geothermal with geothermal air heater. タービン翼断面(4C)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4C) 20 times larger + Making hot and cold energy primed + Collecting geothermal heat with a geothermal air heater + Pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4D) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4E) + making hot and cold use prime + collecting geothermal heat with geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4F) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4A) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を25倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4B) + full electrified house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store the water + Compressed geothermal air, heats it up to 1200 degrees and repeats the heat recovery by heating and compressing heat + Accelerates the water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of 26-times hydrogravity geothermal turbines with a turbine blade cross section (4C) + full electrification housing prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store the water + Compressed geothermal air, heats it up to 1200 degrees and repeats the heat recovery by heating and compressing heat + Accelerates the water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を2倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with double turbine blade cross-section (4D) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を3倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing three stages of hydrogravity geothermal turbines with three times the turbine blade cross section (4E) + full electrification house prime + water pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を4倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine with a four-fold hydrogravity geothermal turbine with 4 times the turbine blade cross section (4F) + full electrification of the house + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Accelerated water compressed air to accelerate three types of power generation turbines Various energy storage cycle coalescing engines, with the blade group having the same diameter and shape of each stage, and mating bolt assembly turbine drive + geothermal air recovery with a geothermal air heater. タービン翼断面(4A)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 5 times the turbine blade cross section (4A) + accelerating various battery-powered vehicles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Compressed heating air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + accelerating water vertically downward to make the three types of turbine blade groups into the same shape and shape with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4B)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4B) + storage battery-powered various automobiles primed + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + geothermal Compressed heating air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + accelerating water vertically downward to make the three types of turbine blade groups into the same shape and shape with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4C)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4C) of 7 times + accelerating various battery-powered automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + water is accelerated and contacted vertically downward, and the blades of the three turbines for power generation have the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with turbine blade cross-section (4D) 8 times + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of square turbine outer box + water is stored and stored + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + water is accelerated and contacted vertically downward, and the blades of the three turbines for power generation have the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) structure and method of hydrogravity geothermal power generation with 9 times + storage battery-powered various automobiles primed + pumping device (1J) installed at the corner of square turbine outer box to save and save water + geothermal Heat production compresses heating air close to 1200 ° C, heat production repeats heat and compression heat recovery + Compresses water and accelerates compressed air, and power turbines are fitted with three blades of the same diameter and the same shape for each paragraph Bolt assembly turbine drive + various energy storage cycle coalescence engine that collects geothermal heat with a geothermal air heater. タービン翼断面(4F)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 10 times the turbine blade cross section (4F) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 11 times the turbine blade cross section (4A) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 12 times the turbine blade cross section (4B) + making heat and cold use primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross-section (4C) + making heat and cold use primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 14 times the turbine blade cross-section (4D) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 15 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner of square turbine outer box to save water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) with 16 times the hydrogravity geothermal power generation generating turbine blade method + factory electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 17-fold hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification primed + pumping device (1J) is installed at the corner of square turbine outer box and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4B)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 18-times hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner corner of square type turbine casing to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4C)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 19 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat recovery by compressing and recovering heat + Accelerating water with compressed air and generating power to three types of turbine blades of the same diameter for each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine that recovers geothermal with geothermal air heater. タービン翼断面(4D)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 20 times the turbine blade cross section (4D) + making hot and cold use prime + collecting geothermal heat with geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4E) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 22 times the turbine blade cross section (4F) + making hot and cold use prime + collecting geothermal heat with geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4A) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4B) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を25倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing a multi-stage hydrogravity geothermal turbine with a turbine blade cross section (4C) of 25 times + a fully electrified house prime + a pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store the water + Compressed geothermal air, heats it up to 1200 degrees and repeats the heat recovery by heating and compressing heat + Accelerates the water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 26 times the turbine blade cross section (4D) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store the water + Compressed geothermal air, heats it up to 1200 degrees and repeats the heat recovery by heating and compressing heat + Accelerates the water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を2倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4E) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を3倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing three stages of hydrogravity geothermal turbines with three times the turbine blade cross section (4F) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を4倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with four times the turbine blade cross section (4A) + full electrified house prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Accelerated water compressed air to accelerate three types of power generation turbines Various energy storage cycle coalescing engines, with the blade group having the same diameter and shape of each stage, and mating bolt assembly turbine drive + geothermal air recovery with a geothermal air heater. タービン翼断面(4B)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 5 times the turbine blade cross section (4B) + accelerating various battery-powered vehicles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + geothermal Compressed heating air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + accelerating water vertically downward to make the three types of turbine blade groups into the same shape and shape with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4C)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4C) + storage battery-powered various automobiles primed + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Compressed heating air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + accelerating water vertically downward to make the three types of turbine blade groups into the same shape and shape with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4D)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7-fold hydrogravity geothermal power generation structure and method + battery-powered various automobiles primed + A water pump (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + water is accelerated and contacted vertically downward, and the blades of the three turbines for power generation have the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with 8 times the turbine blade cross section (4E) + accelerating storage battery-powered automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + water is accelerated and contacted vertically downward, and the blades of the three turbines for power generation have the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9-fold hydrogravity geothermal power generation structure and method + storage battery driven various automobiles primed + water pumping device (1J) installed at the corner of square turbine outer box + water stored and saved + geothermal Heat production compresses heating air close to 1200 ° C, heat production repeats heat and compression heat recovery + Compresses water and accelerates compressed air, and power turbines are fitted with three blades of the same diameter and the same shape for each paragraph Bolt assembly turbine drive + various energy storage cycle coalescence engine that collects geothermal heat with a geothermal air heater. タービン翼断面(4A)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 10 times the turbine blade cross section (4A) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water vertically downward A variety of energy storage cycle coalescing engines that combine three types of turbine blades with the same diameter and shape of each stage, and collect geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross section (4B) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 12 times the turbine blade cross section (4C) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross section (4D) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal power generation turbines with 14 times the turbine blade cross section (4E) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times as many hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner of square turbine outer box to save water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17-fold hydrogravity geothermal power generation turbine equipment generation method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4C)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 18 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4D)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 19-times hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner corner of square turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat recovery by compressing and recovering heat + Accelerating water with compressed air and generating power to three types of turbine blades of the same diameter for each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine that recovers geothermal with geothermal air heater. タービン翼断面(4E)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 20 times the turbine blade cross section (4E) + Making heat and cold use prime + Collecting geothermal heat with a geothermal air heater + Pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4F) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4A) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4B) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4C) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を25倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4D) + full electrified house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store the water + Compressed geothermal air, heats it up to 1200 degrees and repeats the heat recovery by heating and compressing heat + Accelerates the water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a thermal insulation turbine by providing multiple stages of hydrogravity geothermal turbines with 26 times the turbine blade cross-section (4E) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store the water + Compressed geothermal air, heats it up to 1200 degrees and repeats the heat recovery by heating and compressing heat + Accelerates the water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を2倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4F) + Fully electrified house prime + Pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を3倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat insulation turbine by providing three stages of hydrogravity geothermal turbines with a turbine blade cross-section (4A) three times higher + a fully electrified house prime + a pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を4倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine with a four-fold hydrogravity geothermal turbine with a turbine blade cross-section (4B) + a fully electrified house prime + a pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Accelerated water compressed air to accelerate three types of power generation turbines Various energy storage cycle coalescing engines, with the blade group having the same diameter and shape of each stage, and mating bolt assembly turbine drive + geothermal air recovery with a geothermal air heater. タービン翼断面(4C)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 5 times the turbine blade cross section (4C) + accelerating various battery-powered vehicles + pumping equipment (1J) at the corner of the square turbine outer box to save and save water + geothermal Compressed heating air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + accelerating water vertically downward to make the three types of turbine blade groups into the same shape and shape with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4D)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4D) + storage battery powered various automobiles primed + a pumping device (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Compressed heating air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + accelerating water vertically downward to make the three types of turbine blade groups into the same shape and shape with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4E)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4E) of 7 times + accelerating various battery-powered automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + water is accelerated and contacted vertically downward, and the blades of the three turbines for power generation have the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4F) of 8 times + accelerating storage battery-powered automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + water is accelerated and contacted vertically downward, and the blades of the three turbines for power generation have the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 9-fold hydrogravity geothermal power generation structure and method + battery-powered various automobile primes + water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production compresses heating air close to 1200 ° C, heat production repeats heat and compression heat recovery + Compresses water and accelerates compressed air, and power turbines are fitted with three blades of the same diameter and the same shape for each paragraph Bolt assembly turbine drive + various energy storage cycle coalescence engine that collects geothermal heat with a geothermal air heater. タービン翼断面(4B)を10倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Configuration and method for accelerating 10 times the hydrogravity power water vertically down the turbine blade cross section (4B) + geothermally heated air by suction compression heat recovery and turbine with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Various energy storage cycle coalescence engine that accelerates vertically downward and makes the blades of the three types of turbines have the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を11倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Configuration and method for accelerating the vertical direction of water gravity power generation water 11 times the turbine blade cross section (4C) + geothermally heated air by suction compression heat recovery and turbine with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Various energy storage cycle coalescence engine that accelerates vertically downward and makes the blades of the three types of turbines have the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を12倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Configuration and method for accelerating the vertical direction of hydrogravity water 12 times the turbine blade cross section (4D) + geothermally heated air by suction compression heat recovery and turbine with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Various energy storage cycle coalescing engines that collect the turbine blades of three types of power generation turbines with the same diameter and approximately the same shape for each stage as the accelerated rolling contact vertically downward and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を13倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Configuration and method for accelerating 13 times the hydrogravity power generation vertically down the turbine blade cross section (4E) + geothermally heated air by suction compression heat recovery and turbine with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Various energy storage cycle coalescing engines that collect the turbine blades of three types of power generation turbines with the same diameter and approximately the same shape for each stage as the accelerated rolling contact vertically downward and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を14倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Configuration and method of accelerating 14-fold hydrogravity power generation vertically down turbine blade cross section (4F) + geothermal heating air is recovered by suction compression heat and turbine is heated with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Various energy storage cycle coalescing engine that accelerates compressed air and generates a group of moving blades of three types of power generation turbines with the same diameter and shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を15倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Configuration and method of accelerating 15 times the hydrogravity generated water vertically down the turbine blade cross section (4A) + geothermally heated air by suction compression heat recovery and turbine with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Various energy storage cycle coalescence engine that accelerates vertically downward and makes the blades of the three types of turbines have the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を16倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method for accelerating 16 times the hydrogravity power water vertically down the turbine blade cross section (4B) + geothermally heated air by suction compression heat recovery and turbine with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Various energy storage cycle coalescence engine that accelerates vertically downward and makes the blades of the three types of turbines have the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を17倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Configuration and method of accelerating 17 times the hydrogravity power generated vertically by turbine blade cross section (4C) + geothermal heating air is recovered by suction compression heat and turbine is heated by superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Various energy storage cycle coalescing engines that collect the turbine blades of three types of power generation turbines with the same diameter and approximately the same shape for each stage as the accelerated rolling contact vertically downward and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を18倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Configuration and method of accelerating 18 times hydrogravity power generation vertically down the turbine blade cross section (4D) + geothermally heated air by suction compression heat recovery and turbine with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Various energy storage cycle coalescing engines that collect the turbine blades of three types of power generation turbines with the same diameter and approximately the same shape for each stage as the accelerated rolling contact vertically downward and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を19倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A configuration and method for accelerating the hydrogravity water generated by 19 times the turbine blade cross section (4E) vertically downward + the heat heated by the geothermal heat, and recovering the compressed heat, and using the superheated steam (50) and the compressed air (28a) respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Various energy storage cycle coalescing engine that accelerates compressed air and generates a group of moving blades of three types of power generation turbines with the same diameter and shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 20 times the turbine blade cross section (4F) + storage battery driven various types of ships + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4A) + storage battery driven various types of ships + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4B) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4C) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4D) + accelerating the storage battery drive + water pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Compressed water is accelerated to generate three types of turbine blades for power generation Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を25倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4E) of 25 times + accelerating the water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 26 times the turbine blade cross section (4F) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を2倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4A) + accelerating the storage battery drive + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を3倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with three times the turbine blade cross section (4B) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を4倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the water vertically by installing multiple stages of hydrogravity geothermal turbines with 4 times the turbine blade cross section (4C) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を5倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 5 times the turbine blade cross section (4D) + accelerating water storage + various types of vessels driven + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を6倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4E) of 6 times + accelerating the water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を7倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 7 times the turbine blade cross section (4F) + accelerating the water storage + various types of vessels driven + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を8倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 8 times the turbine blade cross section (4A) + accelerating water storage + various types of vessels driven + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を9倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 9 times the turbine blade cross section (4B) + accelerating the storage battery drive + water pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 10 times the turbine blade cross section (4C) + storage battery driven various types of ships + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross-section (4D) + accelerating the storage battery drive + pumping equipment (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross-section (4E) + accelerating the water storage + various types of vessels driven by water + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross section (4F) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 14 times the turbine blade cross section (4A) + storage battery-powered various ships primed + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を15倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4B) 15 times larger + accelerating the storage battery drive + various pumping vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を16倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4C) of 16 times + accelerating water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を17倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 17 times the turbine blade cross-section (4D) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines that make the rotor blade group into the same shape and shape with the same diameter for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を18倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 18 times the turbine blade cross section (4E) + accelerating the water storage + various types of vessels driven + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を19倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4F) of 19 times + accelerating water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4A) of 20 times + accelerating water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Compressed water is accelerated to generate three types of turbine blades for power generation Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4B) of 21 times + accelerating water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Compressed water is accelerated to generate three types of turbine blades for power generation Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4C) + storage battery driven various types of ships + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Compressed water is accelerated to generate three types of turbine blades for power generation Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4D) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Compressed water is accelerated to generate three types of turbine blades for power generation Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4E) + accelerating the storage battery drive + water pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Compressed water is accelerated to generate three types of turbine blades for power generation Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を25倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4F) + storage battery-driven various ships primed + pumping device (1J) outside square turbine It is installed at the corner of the box to save and store water + heat production by compressing geothermal heating air and bringing it closer to 1200 degrees by repeating heating and compression heat recovery + power generation method that recovers and uses cold air and combined heat Various energy conservation cycle coalescence engine. タービン翼断面(4A)を26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 26 times the turbine blade cross section (4A) + storage battery driven various types of ships + pumping device (1J) outside square turbine It is installed at the corner of the box to save and store water + heat production by compressing geothermal heating air and bringing it closer to 1200 degrees by repeating heating and compression heat recovery + power generation method that recovers and uses cold air and combined heat Various energy conservation cycle coalescence engine. タービン翼断面(4B)を2倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with double turbine blade cross section (4B) + storage battery driven various types of ships + pumping device (1J) outside square turbine It is installed at the corner of the box to save and store water + heat production by compressing geothermal heating air and bringing it closer to 1200 degrees by repeating heating and compression heat recovery + power generation method that recovers and uses cold air and combined heat Various energy conservation cycle coalescence engine. タービン翼断面(4C)を3倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with three times the turbine blade cross section (4C) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine It is installed at the corner of the box to save and store water + heat production by compressing geothermal heating air and bringing it closer to 1200 degrees by repeating heating and compression heat recovery + power generation method that recovers and uses cold air and combined heat Various energy conservation cycle coalescence engine. タービン翼断面(4D)を4倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with four times the turbine blade cross-section (4D) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine It is installed at the corner of the box to save and store water + heat production by compressing geothermal heating air and bringing it closer to 1200 degrees by repeating heating and compression heat recovery + power generation method that recovers and uses cold air and combined heat Various energy conservation cycle coalescence engine. タービン翼断面(4E)を5倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 5 times the turbine blade cross-section (4E) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) Increase the head + Pump the water pump (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it closer to 1200 degrees and repeat the heat recovery by heating and compressing heat recovery Manufacture + various energy storage cycle coalescence engine that accelerates water vertically downward and makes moving blades of three types of turbines have the same diameter and shape of each stage, fitted bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を6倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 6 times the turbine blade cross section (4F) + Making hot water and cold energy primed + Collecting geothermal heat with a geothermal air heater + Pumping device (1J) Increase the head + Pump the water pump (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it closer to 1200 degrees and repeat the heat recovery by heating and compressing heat recovery Manufacture + various energy storage cycle coalescence engine that accelerates water vertically downward and makes moving blades of three types of turbines have the same diameter and shape of each stage, fitted bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を7倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 7 times the turbine blade cross section (4A) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) Increase the head + Pump the water pump (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it closer to 1200 degrees and repeat the heat recovery by heating and compressing heat recovery Manufacture + various energy conservation cycle coalescence engine that collects turbine blades of three types of turbines with the same diameter and the same shape for each stage by using accelerated rolling contact with water vertically downward and driving the assembly with bolt assembly turbine + geothermal air heater . タービン翼断面(4B)を8倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 8 times the turbine blade cross section (4B) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) Increase the head + Pump the water pump (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it closer to 1200 degrees and repeat the heat recovery by heating and compressing heat recovery Manufacture + various energy conservation cycle coalescence engine that collects turbine blades of three types of turbines with the same diameter and the same shape for each stage by using accelerated rolling contact with water vertically downward and driving the assembly with bolt assembly turbine + geothermal air heater . タービン翼断面(4C)を9倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 9 times the turbine blade cross section (4C) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) Increase the head + Pump the water pump (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it closer to 1200 degrees and repeat the heat recovery by heating and compressing heat recovery Manufacture + Combined engine of various energy storage cycles that uses compressed air to accelerate compressed air to make the blades of three types of power generation turbines have the same diameter and shape of each stage, and engages in a bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically and vertically by using multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4D) 10 times larger + Making hot and cold energy primed + Collecting geothermal heat with a geothermal air heater + Pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water vertically downward A variety of energy storage cycle coalescing engines that combine three types of turbine blades with the same diameter and shape of each stage, and collect geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross-section (4E) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross-section (4F) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water rolling vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as contacts and has the same diameter and shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross section (4A) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 14 times the turbine blade cross section (4B) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 15 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 16 times as many hydrogravity geothermal power generation generating turbine blades + plant electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 17-fold hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner corner of square turbine and water stored up + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Various energy storage cycle coalescing engines with geometries recovered by a mating bolt assembly turbine drive + geothermal air heater as approximately the same shape. タービン翼断面(4F)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 18 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square type turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4A)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 19 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat recovery by compressing and recovering heat + Accelerating water with compressed air and generating power to three types of turbine blades of the same diameter for each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine to recover geothermal with geothermal air heater. タービン翼断面(4B)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4B) 20 times larger + Making heat and cold use prime + Collecting geothermal heat with a geothermal air heater + Pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water vertically downward A variety of energy storage cycle coalescing engines that combine three types of turbine blades with the same diameter and shape of each stage, and collect geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4C) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4D) + making hot and cold use prime + collecting geothermal heat with geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water rolling vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as contacts and has the same diameter and shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross-section (4E) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4F) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を25倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4A) + full electrification house prime + water pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Compressed geothermal air, heats it to 1200 degrees and heats another air repeatedly by heating and compressing heat recovery + Accelerates water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines that collect the geothermal heat with a fitting bolt assembly turbine drive + geothermal air heater, with the group having the same diameter and the same shape for each paragraph. タービン翼断面(4B)を26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat-retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 26 times the turbine blade cross-section (4B) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store the water + Compressed geothermal air, heats it up to 1200 degrees and repeats the heat recovery by heating and compressing heat + Accelerates the water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を2倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4C) + Fully electrified housing prime + Pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を3倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with three times the turbine blade cross section (4D) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を4倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine with a turbine blade cross-section (4E) four times as many as a gravity gravity geothermal power generation turbine + full electrification house prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Accelerated water compressed air to accelerate three types of power generation turbines Various energy storage cycle coalescing engines, with the blade group having the same diameter and shape of each stage, and mating bolt assembly turbine drive + geothermal air recovery with a geothermal air heater. タービン翼断面(4F)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 5 times the turbine blade cross section (4F) + accelerating various battery-powered vehicles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production by compressing heated air and bringing it closer to 1200 degrees Heat production by repeating heating and compressing heat recovery + Accelerating water vertically downward to make the three blades of blades of the same diameter approximately the same shape for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with assembly turbine drive + geothermal air heater. タービン翼断面(4A)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4A) + accelerating storage battery-powered automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + geothermal Compressed heating air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + accelerating water vertically downward to make the three types of turbine blade groups into the same shape and shape with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with assembly turbine drive + geothermal air heater. タービン翼断面(4B)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 7-fold hydrogravity geothermal power generation structure and method + battery-powered various automobiles primed + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production by compressing heated air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + water accelerating downward in contact with the vertical, and moving blade groups of three types of power generation turbines with the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4C) of 8 times + storage battery powered various automobiles primed + a pumping device (1J) installed at the corner of the square turbine outer box + water stored and saved + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + water is accelerated and contacted vertically downward, and the blades of the three turbines for power generation have the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 9-fold hydrogravity geothermal power generation structure and method + storage battery driven various automobiles prime + water pump (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production compresses heating air close to 1200 ° C, heat production repeats heat and compression heat recovery + Compresses water and accelerates compressed air, and power turbines are fitted with three blades of the same diameter and the same shape for each paragraph Bolt assembly turbine drive + various energy storage cycle coalescence engine that collects geothermal heat with a geothermal air heater. タービン翼断面(4E)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with a turbine blade cross section (4E) 10 times higher + Making heat and cold energy primed + Collecting geothermal heat with a geothermal air heater + Pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross-section (4F) + making hot and cold use prime + collecting geothermal heat with geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 12 times the turbine blade cross section (4A) + making heat and cold use primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross-section (4B) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 14 times the turbine blade cross section (4C) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 15 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square type turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 16 times as many hydrogravity geothermal power generation generating turbine blades + plant electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) with 17 times the hydrogravity geothermal power generation generating turbine blades + plant electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4A)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 18 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner of square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4B)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 19-times hydrogravity geothermal power generation generating turbine blade method + factory electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box and water is stored ascending + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat recovery by compressing and recovering heat + Accelerating water with compressed air and generating power to three types of turbine blades of the same diameter for each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine that recovers geothermal with geothermal air heater. タービン翼断面(4C)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4C) 20 times larger + Making hot and cold energy primed + Collecting geothermal heat with a geothermal air heater + Pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4D) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4E) + making hot and cold use prime + collecting geothermal heat with geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4F) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4A) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を25倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4B) + full electrified house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store the water + Compressed geothermal air, heats it up to 1200 degrees and repeats the heat recovery by heating and compressing heat + Accelerates the water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of 26-times hydrogravity geothermal turbines with a turbine blade cross section (4C) + full electrification housing prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store the water + Compressed geothermal air, heats it up to 1200 degrees and repeats the heat recovery by heating and compressing heat + Accelerates the water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を2倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with double turbine blade cross-section (4D) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を3倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing three stages of hydrogravity geothermal turbines with three times the turbine blade cross section (4E) + full electrification house prime + water pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を4倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine with a four-fold hydrogravity geothermal turbine with 4 times the turbine blade cross section (4F) + full electrification of the house + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Accelerated water compressed air to accelerate three types of power generation turbines Various energy storage cycle coalescing engines, with the blade group having the same diameter and shape of each stage, and mating bolt assembly turbine drive + geothermal air recovery with a geothermal air heater. タービン翼断面(4A)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 5 times the turbine blade cross section (4A) + accelerating various battery-powered vehicles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Compressed heating air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + accelerating water vertically downward to make the three types of turbine blade groups into the same shape and shape with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4B)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4B) + storage battery-powered various automobiles primed + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + geothermal Compressed heating air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + accelerating water vertically downward to make the three types of turbine blade groups into the same shape and shape with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4C)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4C) of 7 times + accelerating various battery-powered automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + water is accelerated and contacted vertically downward, and the blades of the three turbines for power generation have the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with turbine blade cross-section (4D) 8 times + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of square turbine outer box + water is stored and stored + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + water is accelerated and contacted vertically downward, and the blades of the three turbines for power generation have the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) structure and method of hydrogravity geothermal power generation with 9 times + storage battery-powered various automobiles primed + pumping device (1J) installed at the corner of square turbine outer box to save and save water + geothermal Heat production compresses heating air close to 1200 ° C, heat production repeats heat and compression heat recovery + Compresses water and accelerates compressed air, and power turbines are fitted with three blades of the same diameter and the same shape for each paragraph Bolt assembly turbine drive + various energy storage cycle coalescence engine that collects geothermal heat with a geothermal air heater. タービン翼断面(4F)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 10 times the turbine blade cross section (4F) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 11 times the turbine blade cross section (4A) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 12 times the turbine blade cross section (4B) + making heat and cold use primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross-section (4C) + making heat and cold use primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 14 times the turbine blade cross-section (4D) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 15 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner of square turbine outer box to save water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) with 16 times the hydrogravity geothermal power generation generating turbine blade method + factory electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 17-fold hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification primed + pumping device (1J) is installed at the corner of square turbine outer box and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4B)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 18-times hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner corner of square type turbine casing to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4C)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 19 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat recovery by compressing and recovering heat + Accelerating water with compressed air and generating power to three types of turbine blades of the same diameter for each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine that recovers geothermal with geothermal air heater. タービン翼断面(4D)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 20 times the turbine blade cross section (4D) + making hot and cold use prime + collecting geothermal heat with geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4E) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 22 times the turbine blade cross section (4F) + making hot and cold use prime + collecting geothermal heat with geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4A) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4B) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を25倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing a multi-stage hydrogravity geothermal turbine with a turbine blade cross section (4C) of 25 times + a fully electrified house prime + a pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store the water + Compressed geothermal air, heats it up to 1200 degrees and repeats the heat recovery by heating and compressing heat + Accelerates the water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 26 times the turbine blade cross section (4D) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store the water + Compressed geothermal air, heats it up to 1200 degrees and repeats the heat recovery by heating and compressing heat + Accelerates the water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を2倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4E) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を3倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing three stages of hydrogravity geothermal turbines with three times the turbine blade cross section (4F) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を4倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with four times the turbine blade cross section (4A) + full electrified house prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Accelerated water compressed air to accelerate three types of power generation turbines Various energy storage cycle coalescing engines, with the blade group having the same diameter and shape of each stage, and mating bolt assembly turbine drive + geothermal air recovery with a geothermal air heater. タービン翼断面(4B)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 5 times the turbine blade cross section (4B) + accelerating various battery-powered vehicles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + geothermal Compressed heating air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + accelerating water vertically downward to make the three types of turbine blade groups into the same shape and shape with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4C)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4C) + storage battery-powered various automobiles primed + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Compressed heating air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + accelerating water vertically downward to make the three types of turbine blade groups into the same shape and shape with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4D)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7-fold hydrogravity geothermal power generation structure and method + battery-powered various automobiles primed + A water pump (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + water is accelerated and contacted vertically downward, and the blades of the three turbines for power generation have the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with 8 times the turbine blade cross section (4E) + accelerating storage battery-powered automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + water is accelerated and contacted vertically downward, and the blades of the three turbines for power generation have the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9-fold hydrogravity geothermal power generation structure and method + storage battery driven various automobiles primed + water pumping device (1J) installed at the corner of square turbine outer box + water stored and saved + geothermal Heat production compresses heating air close to 1200 ° C, heat production repeats heat and compression heat recovery + Compresses water and accelerates compressed air, and power turbines are fitted with three blades of the same diameter and the same shape for each paragraph Bolt assembly turbine drive + various energy storage cycle coalescence engine that collects geothermal heat with a geothermal air heater. タービン翼断面(4A)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 10 times the turbine blade cross section (4A) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water vertically downward A variety of energy storage cycle coalescing engines that combine three types of turbine blades with the same diameter and shape of each stage, and collect geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross section (4B) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 12 times the turbine blade cross section (4C) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross section (4D) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal power generation turbines with 14 times the turbine blade cross section (4E) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times as many hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner of square turbine outer box to save water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17-fold hydrogravity geothermal power generation turbine equipment generation method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4C)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 18 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4D)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 19-times hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner corner of square turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat recovery by compressing and recovering heat + Accelerating water with compressed air and generating power to three types of turbine blades of the same diameter for each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine that recovers geothermal with geothermal air heater. タービン翼断面(4E)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 20 times the turbine blade cross section (4E) + Making heat and cold use prime + Collecting geothermal heat with a geothermal air heater + Pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4F) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4A) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4B) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4C) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を25倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4D) + full electrified house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store the water + Compressed geothermal air, heats it up to 1200 degrees and repeats the heat recovery by heating and compressing heat + Accelerates the water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a thermal insulation turbine by providing multiple stages of hydrogravity geothermal turbines with 26 times the turbine blade cross-section (4E) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store the water + Compressed geothermal air, heats it up to 1200 degrees and repeats the heat recovery by heating and compressing heat + Accelerates the water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を2倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4F) + Fully electrified house prime + Pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を3倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat insulation turbine by providing three stages of hydrogravity geothermal turbines with a turbine blade cross-section (4A) three times higher + a fully electrified house prime + a pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を4倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine with a four-fold hydrogravity geothermal turbine with a turbine blade cross-section (4B) + a fully electrified house prime + a pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Accelerated water compressed air to accelerate three types of power generation turbines Various energy storage cycle coalescing engines, with the blade group having the same diameter and shape of each stage, and mating bolt assembly turbine drive + geothermal air recovery with a geothermal air heater. タービン翼断面(4C)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 5 times the turbine blade cross section (4C) + accelerating various battery-powered vehicles + pumping equipment (1J) at the corner of the square turbine outer box to save and save water + geothermal Compressed heating air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + accelerating water vertically downward to make the three types of turbine blade groups into the same shape and shape with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4D)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4D) + storage battery powered various automobiles primed + a pumping device (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Compressed heating air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + accelerating water vertically downward to make the three types of turbine blade groups into the same shape and shape with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4E)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4E) of 7 times + accelerating various battery-powered automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + water is accelerated and contacted vertically downward, and the blades of the three turbines for power generation have the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4F) of 8 times + accelerating storage battery-powered automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + water is accelerated and contacted vertically downward, and the blades of the three turbines for power generation have the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 9-fold hydrogravity geothermal power generation structure and method + battery-powered various automobile primes + water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production compresses heating air close to 1200 ° C, heat production repeats heat and compression heat recovery + Compresses water and accelerates compressed air, and power turbines are fitted with three blades of the same diameter and the same shape for each paragraph Bolt assembly turbine drive + various energy storage cycle coalescence engine that collects geothermal heat with a geothermal air heater. タービン翼断面(4B)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 10 times the turbine blade cross section (4B) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 11 times the turbine blade cross section (4C) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross-section (4D) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal power generation turbines with 13 times the turbine blade cross section (4E) + making heat and cold use primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 14 times the turbine blade cross-section (4F) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 15 times hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + water pumping device (1J) installed at corner corner of square type turbine to save water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and compression heat recovery + Accelerating water vertically downward to make the three blades of turbine blades have the same diameter and shape of each stage Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 16-fold hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner corner of square type turbine and rising water to preserve + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 17 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) is installed at corner corner of square turbine to ascend and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4D)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 18-fold hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is raised and stored + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4E)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 19-fold hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner corner of square turbine to ascend and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat recovery by compressing and recovering heat + Accelerating water with compressed air and generating power to three types of turbine blades of the same diameter for each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine that recovers geothermal with geothermal air heater. タービン翼断面(4F)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4F) 20 times larger + Making heat and cold use prime + Collecting geothermal heat with a geothermal air heater + Pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4A) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4B) + Making hot and cold use prime + Collecting geothermal heat with geothermal air heater + Pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 23 times the turbine blade cross section (4C) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4D) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を25倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4E) + Fully electrified residential prime + Pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store the water + Compressed geothermal air, heats it up to 1200 degrees and repeats the heat recovery by heating and compressing heat + Accelerates the water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of 26-fold hydrogravity geothermal turbines with a turbine blade cross section (4F) + full electrified house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store the water + Compressed geothermal air, heats it up to 1200 degrees and repeats the heat recovery by heating and compressing heat + Accelerates the water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を2倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal power generation turbines with double turbine blade cross section (4A) + Fully electrified house prime + Pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を3倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing three stages of hydrogravity geothermal turbines with three times the turbine blade cross section (4B) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を4倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine with a four-fold hydrogravity geothermal turbine with a turbine blade cross section (4C) + a fully electrified house prime + a pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Compressed geothermal air and heated to 1200 degrees to heat another air repeatedly heating and compressing heat recovery + Accelerating water with compressed air and operating three types of power generation turbines Various energy storage cycle coalescing engines, with blade groups of the same diameter and shape of each stage, and geothermal recovery using mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 5 times the turbine blade cross section (4D) + accelerating various battery-powered vehicles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Compressed heating air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + accelerating water vertically downward to make the three types of turbine blade groups into the same shape and shape with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4E)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4E) + accelerating storage battery-powered various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Compressed heating air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + accelerating water vertically downward to make the three types of turbine blade groups into the same shape and shape with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4F)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 7-fold hydrogravity geothermal power generation structure and method + storage battery driven various automobiles prime + water pump (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + water is accelerated and contacted vertically downward, and the blades of the three turbines for power generation have the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4A) of 8 times + accelerating various battery-powered vehicles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + water is accelerated and contacted vertically downward, and the blades of the three turbines for power generation have the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 9-fold hydrogravity geothermal power generation structure and method + battery powered various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production compresses heating air close to 1200 ° C, heat production repeats heat and compression heat recovery + Compresses water and accelerates compressed air, and power turbines are fitted with three blades of the same diameter and the same shape for each paragraph Bolt assembly turbine drive + various energy storage cycle coalescence engine that collects geothermal heat with a geothermal air heater. タービン翼断面(4C)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 10 times the turbine blade cross section (4C) + making hot water and cold energy primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water vertically downward A variety of energy storage cycle coalescing engines that combine three types of turbine blades with the same diameter and shape of each stage, and collect geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross section (4D) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross section (4E) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically and vertically by using multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross section (4F) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 14 times the turbine blade cross section (4A) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 15 times as many hydrogravity geothermal power generation generating turbine blades + plant electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 16 times as many hydrogravity geothermal power generation generating turbine blades + plant electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 17-fold hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is raised and stored + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4E)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 18-fold hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4F)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) 19 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat recovery by compressing and recovering heat + Accelerating water with compressed air and generating power to three types of turbine blades of the same diameter for each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine that recovers geothermal with geothermal air heater. タービン翼断面(4A)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 20 times the turbine blade cross section (4A) + making hot water and cold energy primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4B) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4C) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4D) + making hot and cold use prime + collecting geothermal heat with geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4E) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を25倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4F) + full electrified house prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Accelerate water vertically downward, three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered by the fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of 26 times hydrogravity geothermal turbines with a turbine blade cross section (4A) + Fully electrified house prime + Pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store the water + Compressed geothermal air, heats it up to 1200 degrees and repeats the heat recovery by heating and compressing heat + Accelerates the water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を2倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4B) + full electrification house prime + water pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Compressed geothermal air, heated to 1200 degrees, repeated heating and heat recovery for another air + Three types of turbines for power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same diameter and shape of each of the rotor blades in each paragraph, and geothermal recovery using a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を3倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing three stages of turbine blade cross-sections (4C) in multiple stages, and making the whole house electrified primed + pumping equipment (1J) a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を4倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine with a four-fold hydrogravity geothermal turbine with 4 times the turbine blade cross section (4D) + full electrification of the house + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Accelerated water compressed air to accelerate three types of power generation turbines Various energy storage cycle coalescing engines, with the blade group having the same diameter and shape of each stage, and mating bolt assembly turbine drive + geothermal air recovery with a geothermal air heater. タービン翼断面(4E)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with 5 times the turbine blade cross section (4E) + accelerating storage battery-powered automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production by compressing heated air and bringing it closer to 1200 degrees Heat production by repeating heating and compressing heat recovery + Accelerating water vertically downward to make the three blades of blades of the same diameter approximately the same shape for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4F)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4F) + accelerating storage battery-powered various automobiles + A water pump (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Compressed heating air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + accelerating water vertically downward to make the three types of turbine blade groups into the same shape and shape with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4A)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 7 times the turbine blade cross section (4A) + storage battery powered various automobiles primed + a water pump (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production by compressing heated air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + water accelerating downward in contact with the vertical, and moving blade groups of three types of power generation turbines with the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4B) 8 times + storage battery powered various automobiles primed + a pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + water is accelerated and contacted vertically downward, and the blades of the three turbines for power generation have the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 9-fold hydrogravity geothermal power generation structure and method + battery-powered various automobile primes + water pumping device (1J) is installed at the corner of the square turbine outer casing + water is stored up + geothermal Heat production compresses heating air close to 1200 ° C, heat production repeats heat and compression heat recovery + Compresses water and accelerates compressed air, and power turbines are fitted with three blades of the same diameter and the same shape for each paragraph Bolt assembly turbine drive + various energy storage cycle coalescence engine that collects geothermal heat with a geothermal air heater. タービン翼断面(4D)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically and vertically by using multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4D) 10 times larger + Making hot and cold energy primed + Collecting geothermal heat with a geothermal air heater + Pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water vertically downward A variety of energy storage cycle coalescing engines that combine three types of turbine blades with the same diameter and shape of each stage, and collect geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross-section (4E) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross-section (4F) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water rolling vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as contacts and has the same diameter and shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross section (4A) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 14 times the turbine blade cross section (4B) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4C) 15 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 16 times as many hydrogravity geothermal power generation generating turbine blades + plant electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 17-fold hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner corner of square turbine and water stored up + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Various energy storage cycle coalescing engines with geometries recovered by a mating bolt assembly turbine drive + geothermal air heater as approximately the same shape. タービン翼断面(4F)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 18 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square type turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4A)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 19 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat recovery by compressing and recovering heat + Accelerating water with compressed air and generating power to three types of turbine blades of the same diameter for each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine to recover geothermal with geothermal air heater. タービン翼断面(4B)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4B) 20 times larger + Making heat and cold use prime + Collecting geothermal heat with a geothermal air heater + Pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water vertically downward A variety of energy storage cycle coalescing engines that combine three types of turbine blades with the same diameter and shape of each stage, and collect geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4C) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4D) + making hot and cold use prime + collecting geothermal heat with geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water rolling vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as contacts and has the same diameter and shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross-section (4E) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4F) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を25倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4A) + full electrification house prime + water pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Compressed geothermal air, heats it to 1200 degrees and heats another air repeatedly by heating and compressing heat recovery + Accelerates water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines that collect the geothermal heat with a fitting bolt assembly turbine drive + geothermal air heater, with the group having the same diameter and the same shape for each paragraph. タービン翼断面(4B)を26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat-retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 26 times the turbine blade cross-section (4B) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store the water + Compressed geothermal air, heats it up to 1200 degrees and repeats the heat recovery by heating and compressing heat + Accelerates the water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を2倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4C) + Fully electrified housing prime + Pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を3倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with three times the turbine blade cross section (4D) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を4倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine with a turbine blade cross-section (4E) four times as many as a gravity gravity geothermal power generation turbine + full electrification house prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Accelerated water compressed air to accelerate three types of power generation turbines Various energy storage cycle coalescing engines, with the blade group having the same diameter and shape of each stage, and mating bolt assembly turbine drive + geothermal air recovery with a geothermal air heater. タービン翼断面(4F)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 5 times the turbine blade cross section (4F) + accelerating various battery-powered vehicles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production by compressing heated air and bringing it closer to 1200 degrees Heat production by repeating heating and compressing heat recovery + Accelerating water vertically downward to make the three blades of blades of the same diameter approximately the same shape for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with assembly turbine drive + geothermal air heater. タービン翼断面(4A)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4A) + accelerating storage battery-powered automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + geothermal Compressed heating air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + accelerating water vertically downward to make the three types of turbine blade groups into the same shape and shape with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with assembly turbine drive + geothermal air heater. タービン翼断面(4B)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 7-fold hydrogravity geothermal power generation structure and method + battery-powered various automobiles primed + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production by compressing heated air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + water accelerating downward in contact with the vertical, and moving blade groups of three types of power generation turbines with the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4C) of 8 times + storage battery powered various automobiles primed + a pumping device (1J) installed at the corner of the square turbine outer box + water stored and saved + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + water is accelerated and contacted vertically downward, and the blades of the three turbines for power generation have the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 9-fold hydrogravity geothermal power generation structure and method + storage battery driven various automobiles prime + water pump (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production compresses heating air close to 1200 ° C, heat production repeats heat and compression heat recovery + Compresses water and accelerates compressed air, and power turbines are fitted with three blades of the same diameter and the same shape for each paragraph Bolt assembly turbine drive + various energy storage cycle coalescence engine that collects geothermal heat with a geothermal air heater. タービン翼断面(4E)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with a turbine blade cross section (4E) 10 times higher + Making heat and cold energy primed + Collecting geothermal heat with a geothermal air heater + Pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross-section (4F) + making hot and cold use prime + collecting geothermal heat with geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 12 times the turbine blade cross section (4A) + making heat and cold use primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross-section (4B) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 14 times the turbine blade cross section (4C) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 15 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square type turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 16 times as many hydrogravity geothermal power generation generating turbine blades + plant electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating water vertically downward to make the three turbine blade groups substantially the same shape with the same diameter for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) with 17 times the hydrogravity geothermal power generation generating turbine blades + plant electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4A)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 18 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner of square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the blades of the three power generation turbines have the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4B)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 19-times hydrogravity geothermal power generation generating turbine blade method + factory electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box and water is stored ascending + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat recovery by compressing and recovering heat + Accelerating water with compressed air and generating power to three types of turbine blades of the same diameter for each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine that recovers geothermal with geothermal air heater. タービン翼断面(4C)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4C) 20 times larger + Making hot and cold energy primed + Collecting geothermal heat with a geothermal air heater + Pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4D) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4E) + making hot and cold use prime + collecting geothermal heat with geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4F) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4A) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を25倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4B) + full electrified house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store the water + Compressed geothermal air, heats it up to 1200 degrees and repeats the heat recovery by heating and compressing heat + Accelerates the water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of 26-times hydrogravity geothermal turbines with a turbine blade cross section (4C) + full electrification housing prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store the water + Compressed geothermal air, heats it up to 1200 degrees and repeats the heat recovery by heating and compressing heat + Accelerates the water vertically downward to move the three types of turbine blades Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を2倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with double turbine blade cross-section (4D) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を3倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing three stages of hydrogravity geothermal turbines with three times the turbine blade cross section (4E) + full electrification house prime + water pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + Three types of turbines for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を4倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine with a four-fold hydrogravity geothermal turbine with 4 times the turbine blade cross section (4F) + full electrification of the house + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Accelerated water compressed air to accelerate three types of power generation turbines Various energy storage cycle coalescing engines, with the blade group having the same diameter and shape of each stage, and mating bolt assembly turbine drive + geothermal air recovery with a geothermal air heater. タービン翼断面(4A)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 5 times the turbine blade cross section (4A) + accelerating various battery-powered vehicles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Compressed heating air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + accelerating water vertically downward to make the three types of turbine blade groups into the same shape and shape with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4B)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4B) + storage battery-powered various automobiles primed + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + geothermal Compressed heating air, approaching 1200 degrees, heat production by repeating another heat and compression heat recovery + accelerating water vertically downward to make the three types of turbine blade groups into the same shape and shape with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4C)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4C) of 7 times + accelerating various battery-powered automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + water is accelerated and contacted vertically downward, and the blades of the three turbines for power generation have the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with turbine blade cross-section (4D) 8 times + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of square turbine outer box + water is stored and stored + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + water is accelerated and contacted vertically downward, and the blades of the three turbines for power generation have the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4E) structure and method of hydrogravity geothermal power generation with 9 times + storage battery-powered various automobiles primed + pumping device (1J) installed at the corner of square turbine outer box to save and save water + geothermal Heat production compresses heating air close to 1200 ° C, heat production repeats heat and compression heat recovery + Compresses water and accelerates compressed air, and power turbines are fitted with three blades of the same diameter and the same shape for each paragraph Bolt assembly turbine drive + various energy storage cycle coalescence engine that collects geothermal heat with a geothermal air heater. タービン翼断面(4F)を10倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Configuration and method for accelerating 10 times the hydrogravity power water vertically down the turbine blade cross section (4F) + geothermally heated air by suction compression heat recovery and turbine with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Various energy storage cycle coalescence engine that accelerates vertically downward and makes the blades of the three types of turbines have the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を11倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Configuration and method of accelerating the vertical section of the turbine blade cross-section (4A) 11 times the hydrogravity water + suction heat recovery of the air heated by geothermal heat and turbine with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Various energy storage cycle coalescence engine that accelerates vertically downward and makes the blades of the three types of turbines have the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を12倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Configuration and method for accelerating the vertical direction of hydrogravity water 12 times the turbine blade cross section (4B) + geothermally heated air by suction compression heat recovery and turbine with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Various energy storage cycle coalescing engines that collect the turbine blades of three types of power generation turbines with the same diameter and approximately the same shape for each stage as the accelerated rolling contact vertically downward and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を13倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Configuration and method of accelerating 13 times the hydrogravity power generation water vertically down the turbine blade cross section (4C) + geothermally heated air by suction compression heat recovery and turbine with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Various energy storage cycle coalescing engines that collect the turbine blades of three types of power generation turbines with the same diameter and approximately the same shape for each stage as the accelerated rolling contact vertically downward and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を14倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Configuration and method of accelerating the vertical direction of hydrogravity power generation 14 times the turbine blade cross section (4D) + geothermally heated air by suction compression heat recovery and turbine with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Various energy storage cycle coalescing engine that accelerates compressed air and generates a group of moving blades of three types of power generation turbines with the same diameter and shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を15倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Configuration and method of accelerating 15 times the hydrogravity power generation water vertically down the turbine blade cross section (4E) + geothermally heated air by suction compression heat recovery and turbine with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Various energy storage cycle coalescence engine that accelerates vertically downward and makes the blades of the three types of turbines have the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を16倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Configuration and method of accelerating 16 times hydrogravity power generation water vertically down the turbine blade cross section (4F) + geothermally heated air by suction compression heat recovery and turbine with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Various energy storage cycle coalescence engine that accelerates vertically downward and makes the blades of the three types of turbines have the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を17倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Configuration and method for accelerating 17 times the hydrogravity generated water vertically down the turbine blade cross section (4A) + geothermally heated air by suction compression heat recovery and turbine with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Various energy storage cycle coalescing engines that collect the turbine blades of three types of power generation turbines with the same diameter and approximately the same shape for each stage as the accelerated rolling contact vertically downward and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を18倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Configuration and method of accelerating 18 times hydrogravity power generation vertically down the turbine blade cross section (4B) + geothermally heated air by suction compression heat recovery and turbine with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Various energy storage cycle coalescing engines that collect the turbine blades of three types of power generation turbines with the same diameter and approximately the same shape for each stage as the accelerated rolling contact vertically downward and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を19倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 19-fold hydrogravity power generation configuration and method + vertical heat + air heated by geothermal heat to recover compressed heat and turbine with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Various energy storage cycle coalescing engine that accelerates compressed air and generates a group of moving blades of three types of power generation turbines with the same diameter and shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4D) 20 times larger + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross-section (4E) + accelerating the storage battery drive + various pumping vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4F) + storage battery-powered various ships prime + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4A) + storage battery-powered vessels + prime pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines that make the rotor blade group into the same shape and shape with the same diameter for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross-section (4B) + accelerating water vertically + various battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Compressed water is accelerated to generate three types of turbine blades for power generation Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を25倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4C) of 25 times + accelerating water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4D) of 26 times + accelerating water downwards + accelerating various battery-powered vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を2倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structures and methods for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4E) + storage battery-powered vessels + prime pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を3倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multistage hydrogravity geothermal turbines with a turbine blade cross-section (4F) of 3 times + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を4倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with four times the turbine blade cross section (4A) + storage battery-powered various ships primed + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を5倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 5 times the turbine blade cross section (4B) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を6倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4C) of 6 times + accelerating water vertically + accelerating storage battery-powered vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を7倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4D) of 7 times + accelerating water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を8倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 8 times the turbine blade cross section (4E) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を9倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 9 times the turbine blade cross section (4F) + storage battery driven various types of ships + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4A) of 10 times + accelerating the water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines that make the rotor blade group into the same shape and shape with the same diameter for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross section (4B) + accelerating the water storage + various types of vessels driven + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross section (4C) + accelerating the water in the vertical direction + pumping up the various battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross-section (4D) + accelerating water storage + various types of vessels driven + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 14 times the turbine blade cross section (4E) + accelerating the water in the vertical direction + pumping up the various battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を15倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 15 times the turbine blade cross section (4F) + storage battery-driven various ships primed + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を16倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 16 times the turbine blade cross section (4A) + storage battery-powered various ships primed + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を17倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 17 times the turbine blade cross section (4B) + accelerating the storage battery drive + various pumping equipment (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を18倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 18 times the turbine blade cross section (4C) + accelerating the storage battery drive + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を19倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4D) 19-times hydrogravity geothermal turbines are installed in multiple stages to accelerate water vertically downwards + storage battery-powered various ships prime + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4E)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4E) of 20 times + accelerating water downwards + accelerating various battery-powered vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Compressed water is accelerated to generate three types of turbine blades for power generation Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4F)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4F) + storage battery-driven various ships primed + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Compressed water is accelerated to generate three types of turbine blades for power generation Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4A)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4A) + storage battery-driven various ships primed + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Compressed water is accelerated to generate three types of turbine blades for power generation Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4B)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4B) of 23 times + accelerating water vertically + all types of storage battery driven vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Compressed air to accelerate water, and three types of turbine blades for power generation Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered by the fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4C)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4C) + accelerating the water storage + various types of vessels driven + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Compressed water is accelerated to generate three types of turbine blades for power generation Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4D)を25倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4D) of 25 times + accelerating water vertically + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine It is installed at the corner of the box to save and store water + heat production by compressing geothermal heating air and bringing it closer to 1200 degrees by repeating heating and compression heat recovery + power generation method that recovers and uses cold air and combined heat Various energy conservation cycle coalescence engine. タービン翼断面(4E)を26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4E) of 26 times + accelerating water downwards + accelerating various battery-powered vessels + pumping device (1J) outside square turbine It is installed at the corner of the box to save and store water + heat production by compressing geothermal heating air and bringing it closer to 1200 degrees by repeating heating and compression heat recovery + power generation method that recovers and uses cold air and combined heat Various energy conservation cycle coalescence engine. タービン翼断面(4F)を2倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   Structures and methods for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with double turbine blade cross-section (4F) + storage battery-powered vessels + prime pumping device (1J) outside square turbine It is installed at the corner of the box to save and store water + heat production by compressing geothermal heating air and bringing it closer to 1200 degrees by repeating heating and compression heat recovery + power generation method that recovers and uses cold air and combined heat Various energy conservation cycle coalescence engine. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with three times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine It is installed at the corner of the box to save and store water + heat production by compressing geothermal heating air and bringing it closer to 1200 degrees by repeating heating and compression heat recovery + power generation method that recovers and uses cold air and combined heat Various energy conservation cycle coalescence engine. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with four times the turbine blade cross-section (4X) + storage battery-powered various vessels primed + pumping device (1J) outside square turbine It is installed at the corner of the box to save and store water + heat production by compressing geothermal heating air and bringing it closer to 1200 degrees by repeating heating and compression heat recovery + power generation method that recovers and uses cold air and combined heat Various energy conservation cycle coalescence engine. タービン翼断面(4X)を5倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 5 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) Increase the head + Pump the water pump (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it closer to 1200 degrees and repeat the heat recovery by heating and compressing heat recovery Manufacture + various energy storage cycle coalescence engine that accelerates water vertically downward and makes moving blades of three types of turbines have the same diameter and shape of each stage, fitted bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を6倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 6 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) Increase the head + Pump the water pump (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it closer to 1200 degrees and repeat the heat recovery by heating and compressing heat recovery Manufacture + various energy storage cycle coalescence engine that accelerates water vertically downward and makes moving blades of three types of turbines have the same diameter and shape of each stage, fitted bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を7倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with seven times the turbine blade cross section (4X) + making hot and cold use primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) Increase the head + Pump the water pump (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it closer to 1200 degrees and repeat the heat recovery by heating and compressing heat recovery Manufacture + various energy conservation cycle coalescence engine that collects turbine blades of three types of turbines with the same diameter and the same shape for each stage by using accelerated rolling contact with water vertically downward and driving the assembly with bolt assembly turbine + geothermal air heater . タービン翼断面(4X)を8倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 8 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) Increase the head + Pump the water pump (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it closer to 1200 degrees and repeat the heat recovery by heating and compressing heat recovery Manufacture + various energy conservation cycle coalescence engine that collects turbine blades of three types of turbines with the same diameter and the same shape for each stage by using accelerated rolling contact with water vertically downward and driving the assembly with bolt assembly turbine + geothermal air heater . タービン翼断面(4X)を9倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 9 times the turbine blade cross section (4X) + making use of hot and cold heat + collecting geothermal heat with a geothermal air heater + pumping device (1J) Increase the head + Pump the water pump (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it closer to 1200 degrees and repeat the heat recovery by heating and compressing heat recovery Manufacture + Combined engine of various energy storage cycles that uses compressed air to accelerate compressed air to make the blades of three types of power generation turbines have the same diameter and shape of each stage, and engages in a bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically and vertically by using multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) 10 times larger + Making hot and cold energy primed + Collecting geothermal heat with a geothermal air heater (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 14 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times as many hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner corner of square type turbine to ascend and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Accelerates water with combustion gas and generates three types of turbine blades for power generation with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+より重い物質の被服水を垂直下方に加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeatedly heating and compressing heat recovery + Accelerating clothing water of heavier material vertically downward, and moving the blades of three types of turbines for power generation Various energy storage cycle coalescing engines that each have the same diameter and approximately the same shape, and are fitted with assembled bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17-fold hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Accelerating water with superheated steam, and moving blades of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed in corner corner of square type turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Accelerating water with superheated steam, and moving blades of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is raised and stored + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Accelerating water with superheated steam, and moving blades of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 20 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating alloy water vertically downward Various energy storage cycle coalescing engines in which the rotor blade groups of the three types of turbines have the same diameter and the same shape for each stage, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save the water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating the other air repeatedly by heating and compressing heat recovery + accelerating rolling contact with the alloy water Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+より水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with combustion gas Various energy conservation cycle coalescing engines that collect the turbine blades of the three types of turbines for rolling power generation as rolling contacts with the same diameter and shape of each stage, and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4X) + making use of hot and cold heat + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various energy storage cycle coalescing engines that collect three types of turbine blades for power generation with roughly the same diameter and shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を25倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4X) + full electrification house prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Accelerated alloy water with compressed air, three types of turbines for power generation Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal power generation turbines with 26 times the turbine blade cross section (4X) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Accelerating water with combustion gas, and generating three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を2倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal air, heated to 1200 degrees, repeated heating and repeated heat recovery of heated air + Three types of power generation using accelerated rolling contact with alloy water with compressed air Various energy storage cycle coalescing engines that use turbine blades + geothermal air heaters with geometries that drive the turbine rotor blades to the same diameter and shape in each paragraph. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 3 times + a fully electrified house prime + a pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and compression heat recovery + Three types of turbines for power generation with accelerated rolling contact with water and combustion Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine with a four-fold hydrogravity geothermal turbine with a turbine blade cross section (4X) + a fully electrified house prime + a pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Accelerated water with superheated steam, Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of hydrogravity geothermal power generation 5 times + storage battery-powered various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production by compressing heated air and bringing it closer to 1200 degrees Heat production by repeating heat and compression heat recovery + Accelerating alloy water with compressed air to make the blades of the three types of turbines have the same diameter and shape with each stage Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4X) + storage battery-powered various automobiles primed + a pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery + water is accelerated with combustion gas, and moving blade groups of three types of power generation turbines are fitted to each paragraph with the same diameter and shape. Combined engine with various energy storage cycles that recovers geothermal heat with a combined bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross-section (4X) of 7 times + storage battery-powered various automobiles primed + a water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production by compressing heated air, approaching 1200 degrees, heat production by repeating separate heating and compression heat recovery + accelerating rolling contact with alloy water with compressed air, and moving blade groups of three types of turbines with the same diameter and shape of each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine that recovers geothermal with geothermal air heater. タービン翼断面(4X)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+より水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 8 times + storage battery powered various automobiles primed + a water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production by compressing heated air and bringing it closer to 1200 degrees, heating and compressing heat from another air + Accelerated rolling contact with combustion gas from water, and moving blade groups of three types of turbines with the same diameter and shape of each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine that recovers geothermal with geothermal air heater. タービン翼断面(4X)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times hydrogravity geothermal power generation structure and method + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for heat recovery from compressed air + water is accelerated by superheated steam, and the blades of the three types of turbines for power generation are fitted with the same diameter and the same shape for each stage. Combined engine with various energy storage cycles that recovers geothermal heat with a combined bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically and vertically by using multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) 10 times larger + Making hot and cold energy primed + Collecting geothermal heat with a geothermal air heater (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 ° C and repeating the heat recovery by heating and compressing heat + accelerating alloy water with compressed air Various energy storage cycle coalescing engines that use three types of turbine blades for power generation with the same diameter and shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeatedly heating and compressing heat recovery + Accelerating water with combustion gas Various energy storage cycle coalescing engines that collect three types of turbine blades for power generation with roughly the same diameter and shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 ° C and repeating the heat recovery by heating and compressing heat + accelerating alloy water with compressed air Various energy conservation cycle coalescing engines that collect the turbine blades of the three types of turbines for rolling power generation as rolling contacts with the same diameter and shape of each stage, and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various energy storage cycle coalescing engines that collect three types of turbine blades for power generation with roughly the same diameter and shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 14 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various energy storage cycle coalescing engines that collect three types of turbine blades for power generation with roughly the same diameter and shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times as many hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner corner of square type turbine to ascend and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Accelerates water with combustion gas and generates three types of turbine blades for power generation with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Accelerating water with superheated steam, and moving blades of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17-fold hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Accelerating water with superheated steam, and moving blades of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed in corner corner of square type turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Accelerating water with superheated steam, and moving blades of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is raised and stored + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Accelerating water with superheated steam, and moving blades of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 20 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating alloy water vertically downward Various energy storage cycle coalescing engines in which the rotor blade groups of the three types of turbines have the same diameter and the same shape for each stage, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水合金を加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees, repeating heat and compression heat recovery + accelerating water alloy to generate electricity Various energy storage cycle coalescing engines that collect the blades of the three types of turbines with the same diameter and approximately the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compressing heat + accelerating rolling of water with combustion gas Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compressing heat + accelerating rolling of water with combustion gas Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4X) + making use of hot and cold heat + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various energy storage cycle coalescing engines that collect three types of turbine blades for power generation with roughly the same diameter and shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を25倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4X) + full electrification house prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Accelerated alloy water with compressed air, three types of turbines for power generation Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal power generation turbines with 26 times the turbine blade cross section (4X) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Accelerating water with combustion gas, and generating three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を2倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal air, heated to 1200 degrees, repeated heating and repeated heat recovery of heated air + Three types of power generation using accelerated rolling contact with alloy water with compressed air Various energy storage cycle coalescing engines that use turbine blades + geothermal air heaters with geometries that drive the turbine rotor blades to the same diameter and shape in each paragraph. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 3 times + a fully electrified house prime + a pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and compression heat recovery + Three types of turbines for power generation with accelerated rolling contact with water and combustion Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine with a four-fold hydrogravity geothermal turbine with four times the turbine blade cross section (4X) + full-scale electrified house prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Accelerated water with superheated steam, Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of hydrogravity geothermal power generation 5 times + storage battery-powered various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production by compressing heated air and bringing it closer to 1200 degrees Heat production by repeating heat and compression heat recovery + Accelerating alloy water with compressed air to make the blades of the three types of turbines have the same diameter and shape with each stage Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4X) + storage battery-powered various automobiles primed + a pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery + water is accelerated with combustion gas, and moving blade groups of three types of power generation turbines are fitted to each paragraph with the same diameter and shape. Combined engine with various energy storage cycles that recovers geothermal heat with a combined bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross-section (4X) of 7 times + storage battery-powered various automobiles primed + a water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production by compressing heated air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + accelerating rolling contact with water with combustion gas, and moving blade groups of three types of power generation turbines with the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 8 times + storage battery powered various automobiles primed + a water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production by compressing heated air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + accelerating rolling contact with water with combustion gas, and moving blade groups of three types of power generation turbines with the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times hydrogravity geothermal power generation structure and method + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for heat recovery from compressed air + water is accelerated by superheated steam, and the blades of the three types of turbines for power generation are fitted with the same diameter and the same shape for each stage. Combined engine with various energy storage cycles that recovers geothermal heat with a combined bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically and vertically by using multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) 10 times larger + Making hot and cold energy primed + Collecting geothermal heat with a geothermal air heater (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 14 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を垂直下方に加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times as many hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner corner of square type turbine to ascend and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Accelerating the alloy water vertically downward and moving the blades of the three types of turbines to the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Accelerating water with superheated steam, and moving blades of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17-fold hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Accelerating water with superheated steam, and moving blades of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed in corner corner of square type turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Accelerating water with superheated steam, and moving blades of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is raised and stored + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Accelerating water with superheated steam, and moving blades of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 20 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various energy storage cycle coalescing engines that collect three types of turbine blades for power generation with roughly the same diameter and shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various energy storage cycle coalescing engines that collect three types of turbine blades for power generation with roughly the same diameter and shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 ° C and repeating the heat recovery by heating and compressing heat + accelerating alloy water with compressed air Various energy conservation cycle coalescing engines that collect the turbine blades of the three types of turbines for rolling power generation as rolling contacts with the same diameter and shape of each stage, and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compressing heat + accelerating rolling of water with combustion gas Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4X) + making use of hot and cold heat + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various energy storage cycle coalescing engines that collect three types of turbine blades for power generation with roughly the same diameter and shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を25倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4X) + full electrification house prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Accelerated alloy water with compressed air, three types of turbines for power generation Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal power generation turbines with 26 times the turbine blade cross section (4X) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Accelerating water with combustion gas, and generating three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を2倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal air, heated to 1200 degrees, repeated heating and repeated heat recovery of heated air + Three types of power generation using accelerated rolling contact with alloy water with compressed air Various energy storage cycle coalescing engines that use turbine blades + geothermal air heaters with geometries that drive the turbine rotor blades to the same diameter and shape in each paragraph. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 3 times + a fully electrified house prime + a pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and compression heat recovery + Three types of turbines for power generation with accelerated rolling contact with water and combustion Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine with a four-fold hydrogravity geothermal turbine with a turbine blade cross section (4X) + a fully electrified house prime + a pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Accelerated water with superheated steam, Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of hydrogravity geothermal power generation 5 times + storage battery-powered various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production by compressing heated air and bringing it closer to 1200 degrees Heat production by repeating heat and compression heat recovery + Accelerating alloy water with compressed air to make the blades of the three types of turbines have the same diameter and shape with each stage Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4X) + storage battery-powered various automobiles primed + a pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for heat recovery from compressed air + water is accelerated by superheated steam, and the blades of the three types of turbines for power generation are fitted with the same diameter and the same shape for each stage. Combined engine with various energy storage cycles that recovers geothermal heat with a combined bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross-section (4X) of 7 times + storage battery-powered various automobiles primed + a water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production by compressing heated air, approaching 1200 degrees, heat production by repeating separate heating and compression heat recovery + accelerating rolling contact with alloy water with compressed air, and moving blade groups of three types of turbines with the same diameter and shape of each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine that recovers geothermal with geothermal air heater. タービン翼断面(4X)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 8 times + storage battery powered various automobiles primed + a water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production by compressing heated air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + accelerating rolling contact with water with combustion gas, and moving blade groups of three types of power generation turbines with the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times hydrogravity geothermal power generation structure and method + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for heat recovery from compressed air + water is accelerated by superheated steam, and the blades of the three types of turbines for power generation are fitted with the same diameter and the same shape for each stage. Combined engine with various energy storage cycles that recovers geothermal heat with a combined bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically and vertically by using multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) 10 times larger + Making hot and cold energy primed + Collecting geothermal heat with a geothermal air heater (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 14 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を垂直下方に加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times as many hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner corner of square type turbine to ascend and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Accelerating the alloy water vertically downward and moving the blades of the three types of turbines to the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Accelerating water with superheated steam to make the three types of turbine blades the same diameter and shape with each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17-fold hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Accelerating water with superheated steam, and moving blades of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed in corner corner of square type turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Accelerating water with superheated steam, and moving blades of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is raised and stored + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Accelerating water with superheated steam, and moving blades of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 20 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeatedly heating and compressing heat recovery + Accelerating water with combustion gas Various energy storage cycle coalescing engines that collect three types of turbine blades for power generation with roughly the same diameter and shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeatedly heating and compressing heat recovery + Accelerating water with combustion gas Various energy storage cycle coalescing engines that collect three types of turbine blades for power generation with roughly the same diameter and shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 ° C and repeating the heat recovery by heating and compressing heat + accelerating alloy water with compressed air Various energy conservation cycle coalescing engines that collect the turbine blades of the three types of turbines for rolling power generation as rolling contacts with the same diameter and shape of each stage, and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compressing heat + accelerating rolling of water with combustion gas Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4X) + making use of hot and cold heat + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various energy storage cycle coalescing engines that collect three types of turbine blades for power generation with roughly the same diameter and shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を25倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4X) + full electrification house prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Accelerated alloy water with compressed air, three types of turbines for power generation Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal power generation turbines with 26 times the turbine blade cross section (4X) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Accelerating water with combustion gas, and generating three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を2倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal air, heated to 1200 degrees, repeated heating and repeated heat recovery of heated air + Three types of power generation using accelerated rolling contact with alloy water with compressed air Various energy storage cycle coalescing engines that use turbine blades + geothermal air heaters with geometries that drive the turbine rotor blades to the same diameter and shape in each paragraph. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 3 times + a fully electrified house prime + a pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and compression heat recovery + Three types of turbines for power generation with accelerated rolling contact with water and combustion Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine with a four-fold hydrogravity geothermal turbine with a turbine blade cross section (4X) + a fully electrified house prime + a pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Accelerated water with superheated steam, Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of hydrogravity geothermal power generation 5 times + storage battery-powered various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery + water is accelerated with combustion gas, and moving blade groups of three types of power generation turbines are fitted to each paragraph with the same diameter and shape. Combined engine with various energy storage cycles that recovers geothermal heat with a combined bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4X) + storage battery-powered various automobiles primed + a pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery + water is accelerated with combustion gas, and moving blade groups of three types of power generation turbines are fitted to each paragraph with the same diameter and shape. Combined engine with various energy storage cycles that recovers geothermal heat with a combined bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross-section (4X) of 7 times + storage battery-powered various automobiles primed + a water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production by compressing heated air, approaching 1200 degrees, heat production by repeating separate heating and compression heat recovery + accelerating rolling contact with alloy water with compressed air, and moving blade groups of three types of turbines with the same diameter and shape of each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine that recovers geothermal with geothermal air heater. タービン翼断面(4X)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 8 times + storage battery powered various automobiles primed + a water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production by compressing heated air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + accelerating rolling contact with water with combustion gas, and moving blade groups of three types of power generation turbines with the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times hydrogravity geothermal power generation structure and method + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for heat recovery from compressed air + water is accelerated by superheated steam, and the blades of the three types of turbines for power generation are fitted with the same diameter and the same shape for each stage. Combined engine with various energy storage cycles that recovers geothermal heat with a combined bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically and vertically by using multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) 10 times larger + Making hot and cold energy primed + Collecting geothermal heat with a geothermal air heater (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 14 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times as many hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner corner of square type turbine to ascend and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating the alloy water vertically downward, and moving the three types of turbine blades with the same diameter and shape in each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine that recovers geothermal with geothermal air heater. タービン翼断面(4X)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Accelerating water with superheated steam to make the three types of turbine blades the same diameter and shape with each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17-fold hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Accelerating water with superheated steam, and moving blades of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水合金を加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed in corner corner of square type turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Accelerated rolling contact with water alloy, and blades of three types of turbines for power generation have almost the same shape for each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine that recovers geothermal with geothermal air heater. タービン翼断面(4X)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is raised and stored + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C and repeating heat recovery by heating and compressing heat recovery + Accelerating alloy water with compressed air and moving blade groups of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 20 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 ° C and repeating the heat recovery by heating and compressing heat + accelerating alloy water with compressed air Various energy storage cycle coalescing engines that use three types of turbine blades for power generation with the same diameter and shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeatedly heating and compressing heat recovery + Accelerating water with combustion gas Various energy storage cycle coalescing engines that collect three types of turbine blades for power generation with roughly the same diameter and shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 ° C and repeating the heat recovery by heating and compressing heat + accelerating alloy water with compressed air Various energy conservation cycle coalescing engines that collect the turbine blades of the three types of turbines for rolling power generation as rolling contacts with the same diameter and shape of each stage, and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compressing heat + accelerating rolling of water with combustion gas Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4X) + making use of hot and cold heat + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 ° C and repeating the heat recovery by heating and compressing heat + accelerating alloy water with compressed air Various energy storage cycle coalescing engines that use three types of turbine blades for power generation with the same diameter and shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を25倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4X) + full electrification house prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Accelerated alloy water with compressed air, three types of turbines for power generation Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal power generation turbines with 26 times the turbine blade cross section (4X) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Accelerating water with combustion gas, and generating three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を2倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal air, heated to 1200 degrees, repeated heating and repeated heat recovery of heated air + Three types of power generation using accelerated rolling contact with alloy water with compressed air Various energy storage cycle coalescing engines that use turbine blades + geothermal air heaters with geometries that drive the turbine rotor blades to the same diameter and shape in each paragraph. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 3 times + a fully electrified house prime + a pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and compression heat recovery + Three types of turbines for power generation with accelerated rolling contact with water and combustion Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine with a four-fold hydrogravity geothermal turbine with a turbine blade cross section (4X) + a fully electrified house prime + a pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Accelerated alloy water with compressed air, three types of turbines for power generation Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of hydrogravity geothermal power generation 5 times + storage battery-powered various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production by compressing heated air and bringing it closer to 1200 degrees Heat production by repeating heat and compression heat recovery + Accelerating alloy water with compressed air to make the blades of the three types of turbines have the same diameter and shape with each stage Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4X) + storage battery-powered various automobiles primed + a pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery + water is accelerated with combustion gas, and moving blade groups of three types of power generation turbines are fitted to each paragraph with the same diameter and shape. Combined engine with various energy storage cycles that recovers geothermal heat with a combined bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross-section (4X) of 7 times + storage battery-powered various automobiles primed + a water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production by compressing heated air, approaching 1200 degrees, heat production by repeating separate heating and compression heat recovery + accelerating rolling contact with alloy water with compressed air, and moving blade groups of three types of turbines with the same diameter and shape of each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine that recovers geothermal with geothermal air heater. タービン翼断面(4X)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 8 times + storage battery powered various automobiles primed + a water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production by compressing heated air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + accelerating rolling contact with water with combustion gas, and moving blade groups of three types of power generation turbines with the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times hydrogravity geothermal power generation structure and method + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production by compressing heated air and bringing it closer to 1200 degrees Heat production by repeating heat and compression heat recovery + Accelerating alloy water with compressed air to make the blades of the three types of turbines have the same diameter and shape with each stage Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically and vertically by using multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) 10 times larger + Making hot and cold energy primed + Collecting geothermal heat with a geothermal air heater (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 14 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times as many hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner corner of square type turbine to ascend and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating the alloy water vertically downward, and moving the three types of turbine blades with the same diameter and shape in each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine that recovers geothermal with geothermal air heater. タービン翼断面(4X)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Accelerating water with superheated steam to make the three types of turbine blades the same diameter and shape with each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17-fold hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Accelerating rolling contact with alloy water and moving blade groups of three types of turbines with the same diameter and shape of each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine that recovers geothermal with geothermal air heater. タービン翼断面(4X)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+より水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed in corner corner of square type turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 ° C and repeats heat recovery by compressing and recovering heat + Accelerated rolling contact with combustion gas from water, and the three blades of power generation turbines are the same for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by fitting bolt assembly turbine drive + geothermal air heater as approximately the same diameter. タービン翼断面(4X)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is raised and stored + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Accelerating water with superheated steam, and moving blades of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 20 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 ° C and repeating the heat recovery by heating and compressing heat + accelerating alloy water with compressed air Various energy storage cycle coalescing engines that use three types of turbine blades for power generation with the same diameter and shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeatedly heating and compressing heat recovery + Accelerating water with combustion gas Various energy storage cycle coalescing engines that collect three types of turbine blades for power generation with roughly the same diameter and shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 ° C and repeating the heat recovery by heating and compressing heat + accelerating alloy water with compressed air Various energy conservation cycle coalescing engines that collect the turbine blades of the three types of turbines for rolling power generation as rolling contacts with the same diameter and shape of each stage, and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compressing heat + accelerating rolling of water with combustion gas Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4X) + making use of hot and cold heat + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various energy storage cycle coalescing engines that collect three types of turbine blades for power generation with roughly the same diameter and shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を25倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4X) + full electrification house prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Accelerated alloy water with compressed air, three types of turbines for power generation Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal power generation turbines with 26 times the turbine blade cross section (4X) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Accelerating water with combustion gas, and generating three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を2倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal air, heated to 1200 degrees, repeated heating and repeated heat recovery of heated air + Three types of power generation using accelerated rolling contact with alloy water with compressed air Various energy storage cycle coalescing engines that use turbine blades + geothermal air heaters with geometries that drive the turbine rotor blades to the same diameter and shape in each paragraph. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+より水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 3 times + a fully electrified house prime + a pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees, repeating heating and compression heat recovery + Water from combustion gas and accelerated rolling contact with three types of power generation Various energy storage cycle coalescing engines that use turbine blades + geothermal air heaters with geometries that drive the turbine rotor blades to the same diameter and shape in each paragraph. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+重い物質水を加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine with a four-fold hydrogravity geothermal turbine with a turbine blade cross section (4X) + a fully electrified house prime + a pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Accelerates heavy material water, and operates three types of turbines for power generation Various energy storage cycle coalescing engines, with the blade group having the same diameter and shape of each stage, and mating bolt assembly turbine drive + geothermal air recovery with a geothermal air heater. タービン翼断面(4X)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of hydrogravity geothermal power generation 5 times + storage battery-powered various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production by compressing heated air and bringing it closer to 1200 degrees Heat production by repeating heat and compression heat recovery + Accelerating alloy water with compressed air to make the blades of the three types of turbines have the same diameter and shape with each stage Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4X) + storage battery-powered various automobiles primed + a pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery + water is accelerated with combustion gas, and moving blade groups of three types of power generation turbines are fitted to each paragraph with the same diameter and shape. Combined engine with various energy storage cycles that recovers geothermal heat with a combined bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross-section (4X) of 7 times + storage battery-powered various automobiles primed + a water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production by compressing heated air, approaching 1200 degrees, heat production by repeating separate heating and compression heat recovery + accelerating rolling contact with alloy water with compressed air, and moving blade groups of three types of turbines with the same diameter and shape of each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine that recovers geothermal with geothermal air heater. タービン翼断面(4X)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 8 times + storage battery powered various automobiles primed + a water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for heat recovery from compressed air + water is accelerated by superheated steam, and the blades of the three types of turbines for power generation are fitted with the same diameter and the same shape for each stage. Combined engine with various energy storage cycles that recovers geothermal heat with a combined bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times hydrogravity geothermal power generation structure and method + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for heat recovery from compressed air + water is accelerated by superheated steam, and the blades of the three types of turbines for power generation are fitted with the same diameter and the same shape for each stage. Combined engine with various energy storage cycles that recovers geothermal heat with a combined bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically and vertically by using multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) 10 times larger + Making hot and cold energy primed + Collecting geothermal heat with a geothermal air heater + Pumping equipment (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeatedly heating and compressing heat recovery + Accelerating water with combustion gas Various energy storage cycle coalescing engines that collect three types of turbine blades for power generation with roughly the same diameter and shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various energy storage cycle coalescing engines that collect three types of turbine blades for power generation with roughly the same diameter and shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various energy storage cycle coalescing engines that collect three types of turbine blades for power generation with roughly the same diameter and shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various energy storage cycle coalescing engines that collect three types of turbine blades for power generation with roughly the same diameter and shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 14 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various energy storage cycle coalescing engines that collect three types of turbine blades for power generation with roughly the same diameter and shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times as many hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner corner of square type turbine to ascend and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Accelerating the alloy water vertically downward, and moving the three types of turbine blades with the same diameter and shape in each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine that recovers geothermal with geothermal air heater. タービン翼断面(4X)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水合金を加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat recovery by compressing and recovering heat + Accelerating the water alloy to make the rotor blade group of the three types of power generation turbines with the same diameter and the same shape for each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17-fold hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and heat and compresses heat separately. + Water is accelerated by contact with combustion gas, and the blades of three types of power generation turbines have the same diameter for each paragraph. Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed in corner corner of square type turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and heat and compresses heat separately. + Water is accelerated by contact with combustion gas, and the blades of three types of power generation turbines have the same diameter for each paragraph. Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is raised and stored + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Accelerating water with superheated steam, and moving blades of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 20 times + making use of hot and cold energy + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 ° C and repeating the heat recovery by heating and compressing heat + accelerating alloy water with compressed air Various energy storage cycle coalescing engines that use three types of turbine blades for power generation with the same diameter and shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeatedly heating and compressing heat recovery + Accelerating water with combustion gas Various energy storage cycle coalescing engines that collect three types of turbine blades for power generation with roughly the same diameter and shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 ° C and repeating the heat recovery by heating and compressing heat + accelerating alloy water with compressed air Various energy conservation cycle coalescing engines that collect the turbine blades of the three types of turbines for rolling power generation as rolling contacts with the same diameter and shape of each stage, and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compressing heat + accelerating rolling of water with combustion gas Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4X) + making use of hot and cold heat + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various energy storage cycle coalescing engines that collect three types of turbine blades for power generation with roughly the same diameter and shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を25倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4X) + full electrification house prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Accelerated alloy water with compressed air, three types of turbines for power generation Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal power generation turbines with 26 times the turbine blade cross section (4X) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Accelerating water with combustion gas, and generating three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を2倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and compression heat recovery + Three types of turbines for power generation with accelerated rolling contact with water and combustion Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 3 times + a fully electrified house prime + a pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and compression heat recovery + Three types of turbines for power generation with accelerated rolling contact with water and combustion Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine with a four-fold hydrogravity geothermal turbine with a turbine blade cross section (4X) + a fully electrified house prime + a pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Accelerated water with superheated steam, Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of hydrogravity geothermal power generation 5 times + storage battery-powered various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production by compressing heated air and bringing it closer to 1200 degrees Heat production by repeating heat and compression heat recovery + Accelerating alloy water with compressed air to make the blades of the three types of turbines have the same diameter and shape with each stage Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4X) + storage battery-powered various automobiles primed + a pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery + water is accelerated with combustion gas, and moving blade groups of three types of power generation turbines are fitted to each paragraph with the same diameter and shape. Combined engine with various energy storage cycles that recovers geothermal heat with a combined bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross-section (4X) of 7 times + storage battery-powered various automobiles primed + a water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for heat recovery from compressed air + water is accelerated by superheated steam, and the blades of the three types of turbines for power generation are fitted with the same diameter and the same shape for each stage. Combined engine with various energy storage cycles that recovers geothermal heat with a combined bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+より水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 8 times + storage battery powered various automobiles primed + a water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production by compressing heated air and bringing it closer to 1200 degrees, heating and compressing heat from another air + Accelerated rolling contact with combustion gas from water, and moving blade groups of three types of turbines with the same diameter and shape of each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine that recovers geothermal with geothermal air heater. タービン翼断面(4X)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times hydrogravity geothermal power generation structure and method + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for heat recovery from compressed air + water is accelerated by superheated steam, and the blades of the three types of turbines for power generation are fitted with the same diameter and the same shape for each stage. Combined engine with various energy storage cycles that recovers geothermal heat with a combined bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically and vertically by using multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) 10 times larger + Making hot and cold energy primed + Collecting geothermal heat with a geothermal air heater (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 14 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times as many hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner corner of square type turbine to ascend and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Accelerating water with superheated steam, and moving blades of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Accelerating water with superheated steam, and moving blades of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17-fold hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery by repeating compressed heat recovery + Accelerated rolling contact with alloy water with compressed air and the same blade group of three power generation turbines for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by fitting bolt assembly turbine drive + geothermal air heater as approximately the same diameter. タービン翼断面(4X)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed in corner corner of square type turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and heat and compresses heat separately. + Water is accelerated by contact with combustion gas, and the blades of three types of power generation turbines have the same diameter for each paragraph. Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is raised and stored + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Accelerating water with superheated steam, and moving blades of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 20 times + making use of hot and cold energy + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 ° C and repeating the heat recovery by heating and compressing heat + accelerating alloy water with compressed air Various energy storage cycle coalescing engines that use three types of turbine blades for power generation with the same diameter and shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeatedly heating and compressing heat recovery + Accelerating water with combustion gas Various energy storage cycle coalescing engines that collect three types of turbine blades for power generation with roughly the same diameter and shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 ° C and repeating the heat recovery by heating and compressing heat + accelerating alloy water with compressed air Various energy conservation cycle coalescing engines that collect the turbine blades of the three types of turbines for rolling power generation as rolling contacts with the same diameter and shape of each stage, and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compressing heat + accelerating rolling of water with combustion gas Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4X) + making use of hot and cold heat + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various energy storage cycle coalescing engines that collect three types of turbine blades for power generation with roughly the same diameter and shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を25倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4X) + full electrification house prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Accelerated alloy water with compressed air, three types of turbines for power generation Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of 26-times hydrogravity geothermal turbines with a turbine blade cross section (4X) + Fully electrified house prime + Pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Accelerated water with superheated steam, Various energy storage cycle coalescing engines that make the blade group into almost the same shape for each paragraph and collect geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を2倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal air, heated to 1200 degrees, repeated heating and repeated heat recovery of heated air + Three types of power generation using accelerated rolling contact with alloy water with compressed air Various energy storage cycle coalescing engines that use turbine blades + geothermal air heaters with geometries that drive the turbine rotor blades to the same diameter and shape in each paragraph. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 3 times + a fully electrified house prime + a pumping device (1J) is a square turbine Installed at the corner of the outer box to save and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and compression heat recovery + Three types of turbines for power generation with accelerated rolling contact with water and combustion Various energy storage cycle coalescing engines, with the same blade diameter group for each paragraph and the same diameter and approximately the same shape, and the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine with a four-fold hydrogravity geothermal turbine with a turbine blade cross section (4X) + a fully electrified house prime + a pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Accelerated water with superheated steam, Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of hydrogravity geothermal power generation 5 times + storage battery-powered various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production by compressing heated air and bringing it closer to 1200 degrees Heat production by repeating heat and compression heat recovery + Accelerating alloy water with compressed air to make the blades of the three types of turbines have the same diameter and shape with each stage Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4X) + storage battery-powered various automobiles primed + a pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for heat recovery from compressed air + water is accelerated by superheated steam, and the blades of the three types of turbines for power generation are fitted with the same diameter and the same shape for each stage. Combined engine with various energy storage cycles that recovers geothermal heat with a combined bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross-section (4X) of 7 times + storage battery-powered various automobiles primed + a water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production by compressing heated air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + accelerating rolling contact with water with combustion gas, and moving blade groups of three types of power generation turbines with the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+より水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 8 times + storage battery powered various automobiles primed + a water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production by compressing heated air and bringing it closer to 1200 degrees, heating and compressing heat from another air + Accelerated rolling contact with combustion gas from water, and moving blade groups of three types of turbines with the same diameter and shape of each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine that recovers geothermal with geothermal air heater. タービン翼断面(4X)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+重い物質のモリブデン鋼球を衝撃低減手段(2G)と共に加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times hydrogravity geothermal power generation structure and method + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production by compressing heated air, approaching 1200 degrees, heat production by repeating heat and compression heat recovery + accelerating heavy steel molybdenum balls together with impact reduction means (2G) Various energy storage cycle coalescing engines that collect the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater with the same diameter and approximately the same shape for each paragraph. タービン翼断面(4X)を10倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を垂直下方に加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Configuration and method of accelerating 10 times the hydrogravity power water vertically down the turbine blade cross section (4X) + geothermally heated air by suction compression heat recovery and turbine with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by repeating geothermal heating air and bringing it closer to 1200 degrees and repeating heat recovery by heat and compression + Alloy water This is a combined energy storage cycle engine that accelerates the lower part vertically to make the blades of the three types of turbines of power generation approximately the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を11倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Configuration and method of accelerating the vertical direction of water gravity power generation water 11 times the turbine blade cross section (4X) + the heat of the air heated by geothermal heat, and recovering the compressed heat and superheated steam (50) and compressed air (28a) respectively. Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Various energy storage cycle coalescing engines that accelerate by superheated steam and make the blades of the three types of turbines have the same diameter and shape at each stage and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を12倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Configuration and method of accelerating 12 times the hydrogravity power generation water vertically down the turbine blade cross section (4X) + geothermally heated air by suction compression heat recovery and turbine with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Various energy storage cycle coalescing engine that accelerates with superheated steam and makes the blades of the three types of turbines with the same diameter approximately the same shape for each paragraph and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を13倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Configuration and method of accelerating 13 times the hydrogravity power generation water vertically down the turbine blade cross section (4X) + geothermally heated air by suction compression heat recovery and turbine with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Various energy storage cycle coalescing engine that accelerates with superheated steam and makes the blades of the three types of turbines with the same diameter approximately the same shape for each paragraph and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を14倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Configuration and method of accelerating 14 times hydrogravity power generation vertically down turbine blade cross section (4X) + geothermal heating air is recovered by suction compression heat and turbine is heated with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Various energy storage cycle coalescing engine that accelerates with superheated steam and makes the blades of the three types of turbines with the same diameter approximately the same shape for each paragraph and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を15倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Configuration and method of accelerating 15 times the hydrogravity generated water vertically down the turbine blade cross section (4X) + geothermally heated air by suction compression heat recovery and turbine with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Various energy storage cycle coalescing engine that accelerates with combustion gas and makes the rotor blade group of three kinds of power generation turbines with the same diameter and the same shape for each paragraph and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を16倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method for accelerating 16 times the hydrogravity generated water vertically down the turbine blade cross section (4X) + geothermally heated air by suction compression heat recovery and turbine with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Various energy storage cycle coalescing engine that accelerates with superheated steam and makes the blades of the three types of turbines with the same diameter approximately the same shape for each paragraph and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を17倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Configuration and method for accelerating 17 times the hydrogravity power generated vertically by turbine blade cross section (4X) + geothermal heating air is recovered by suction compression heat and turbine is heated by superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by repeating geothermal heating air and bringing it closer to 1200 degrees and repeating heat recovery by heat and compression + Alloy water Various energy storage cycle coalescing engines that collect the three blades of the three types of power generation turbines with the same diameter and approximately the same shape for each stage and recover geothermal heat using a geothermal air heater. タービン翼断面(4X)を18倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+より水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Configuration and method of accelerating 18 times the hydrogravity power water vertically down the turbine blade cross section (4X) + geothermally heated air by suction compression heat recovery and turbine with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + Water from water Various energy storage cycle coalescing engines that collect the turbine blades of the three types of power generation turbines with the same diameter and approximately the same shape for each stage and recover geothermal heat with a geothermal air heater. タービン翼断面(4X)を19倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the vertical gravity downward of the turbine blade cross section (4X) 19 times the hydrogravity water + suction heat recovery of the air heated by geothermal heat, and turbine with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Various energy storage cycle coalescing engine that accelerates with superheated steam and makes the blades of the three types of turbines with the same diameter approximately the same shape for each paragraph and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 20 times + accelerating water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 21 times + accelerating water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 23 times + accelerating water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross-section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Compressed water is accelerated to generate three types of turbine blades for power generation Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を25倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 25 times + accelerating water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 26 times the turbine blade cross section (4X) + storage battery driven various types of ships + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を2倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4X) + accelerating the storage battery-powered various ships + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with three times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with four times the turbine blade cross-section (4X) + storage battery-powered various vessels primed + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を5倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 5 times the turbine blade cross section (4X) + accelerating the storage battery drive + pumping equipment (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を6倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 6 times the turbine blade cross section (4X) + accelerating the storage battery drive + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を7倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 7 times the turbine blade cross section (4X) + accelerating the storage battery drive + pumping equipment (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を8倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 8 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を9倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 9 times the turbine blade cross section (4X) + storage battery-powered various ships primed + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal air, heated close to 1200 degrees, heated air repeatedly heating and compressing heat recovery + Accelerated water vertically downward, 3 types of turbine blades Various energy storage cycle coalescing engines, with the same diameter and approximately the same shape for each paragraph, and geothermal recovery with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 10 times + accelerating water vertically + accelerating the storage battery drive + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing 11-fold hydrogravity geothermal turbines with 11 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross section (4X) + accelerating water storage + various types of vessels driven + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 14 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を15倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 15 times + accelerating water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を16倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 16 times + accelerating the water vertically + accelerating storage battery-powered vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を17倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 17 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を18倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 18 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を19倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19-times hydrogravity geothermal turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various ships prime + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air and brought it close to 1200 degrees, heat production that repeats heating and compression heat recovery + Water is accelerated and contacted vertically downward, and the three types of turbines for power generation Various energy storage cycle coalescing engines in which the rotor blade group has the same diameter and the same shape for each paragraph, and the geothermal heat is recovered by the mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 20 times + accelerating water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Compressed water is accelerated to generate three types of turbine blades for power generation Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 21 times + accelerating water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Compressed water is accelerated to generate three types of turbine blades for power generation Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Compressed water is accelerated to generate three types of turbine blades for power generation Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 23 times + accelerating water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Compressed water is accelerated to generate three types of turbine blades for power generation Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross-section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Compressed water is accelerated to generate three types of turbine blades for power generation Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を25倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 25 times + accelerating water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine It is installed at the corner of the box to save and store water + heat production by compressing geothermal heating air and bringing it closer to 1200 degrees by repeating heating and compression heat recovery + power generation method that recovers and uses cold air and combined heat Various energy conservation cycle coalescence engine. タービン翼断面(4X)を26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 26 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine It is installed at the corner of the box to save and store water + heat production by compressing geothermal heating air and bringing it closer to 1200 degrees by repeating heating and compression heat recovery + power generation method that recovers and uses cold air and combined heat Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4X) + accelerating the storage battery-powered various ships + pumping device (1J) outside square turbine It is installed at the corner of the box to save and store water + heat production by compressing geothermal heating air and bringing it closer to 1200 degrees by repeating heating and compression heat recovery + power generation method that recovers and uses cold air and combined heat Various energy conservation cycle coalescence engine. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with three times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine It is installed at the corner of the box to save and store water + heat production by compressing geothermal heating air and bringing it closer to 1200 degrees by repeating heating and compression heat recovery + power generation method that recovers and uses cold air and combined heat Various energy conservation cycle coalescence engine. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with four times the turbine blade cross-section (4X) + storage battery-powered various vessels primed + pumping device (1J) outside square turbine It is installed at the corner of the box to save and store water + heat production by compressing geothermal heating air and bringing it closer to 1200 degrees by repeating heating and compression heat recovery + power generation method that recovers and uses cold air and combined heat Various energy conservation cycle coalescence engine. タービン翼断面(4X)を5倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 5 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) Increase the head + Pump the water pump (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it closer to 1200 degrees and repeat the heat recovery by heating and compressing heat recovery Manufacture + various energy storage cycle coalescence engine that accelerates water vertically downward and makes moving blades of three types of turbines have the same diameter and shape of each stage, fitted bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を6倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 6 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) Increase the head + Pump the water pump (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it closer to 1200 degrees and repeat the heat recovery by heating and compressing heat recovery Manufacture + various energy storage cycle coalescence engine that accelerates water vertically downward and makes moving blades of three types of turbines have the same diameter and shape of each stage, fitted bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を7倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with seven times the turbine blade cross section (4X) + making hot and cold use primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) Increase the head + Pump the water pump (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it closer to 1200 degrees and repeat the heat recovery by heating and compressing heat recovery Manufacture + various energy conservation cycle coalescence engine that collects turbine blades of three types of turbines with the same diameter and the same shape for each stage by using accelerated rolling contact with water vertically downward and driving the assembly with bolt assembly turbine + geothermal air heater . タービン翼断面(4X)を8倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 8 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) Increase the head + Pump the water pump (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it closer to 1200 degrees and repeat the heat recovery by heating and compressing heat recovery Manufacture + various energy conservation cycle coalescence engine that collects turbine blades of three types of turbines with the same diameter and the same shape for each stage by using accelerated rolling contact with water vertically downward and driving the assembly with bolt assembly turbine + geothermal air heater . タービン翼断面(4X)を9倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 9 times the turbine blade cross section (4X) + making use of hot and cold heat + collecting geothermal heat with a geothermal air heater + pumping device (1J) Increase the head + Pump the water pump (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it closer to 1200 degrees and repeat the heat recovery by heating and compressing heat recovery Manufacture + Combined engine of various energy storage cycles that uses compressed air to accelerate compressed air to make the blades of three types of power generation turbines have the same diameter and shape of each stage, and engages in a bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically and vertically by using multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) 10 times larger + Making hot and cold energy primed + Collecting geothermal heat with a geothermal air heater (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 14 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times as many hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner corner of square type turbine to ascend and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C and repeating heat recovery by heating and compressing heat recovery + Accelerating alloy water with compressed air and moving blade groups of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Accelerating water with superheated steam, and moving blades of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17-fold hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery by repeating compressed heat recovery + Accelerated rolling contact with alloy water with compressed air and the same blade group of three power generation turbines for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by fitting bolt assembly turbine drive + geothermal air heater as approximately the same diameter. タービン翼断面(4X)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed in corner corner of square type turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and heat and compresses heat separately. + Water is accelerated by contact with combustion gas, and the blades of three types of power generation turbines have the same diameter for each paragraph. Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is raised and stored + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Accelerating water with superheated steam, and moving blades of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 20 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4X) + making use of hot and cold heat + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を25倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4X) + making the whole electrified housing primed + pumping device (1J) square corner angle Water is stored and stored in the part + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and heat recovery + Accelerating water vertically downwards Various energy storage cycle coalescing engines that each have the same diameter and approximately the same shape, and are fitted with assembled bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 26 times the turbine blade cross section (4X) + full electrified housing prime + pumping device (1J) with square turbine outer box angle Water is stored and stored in the part + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and heat recovery + Accelerating water vertically downwards Various energy storage cycle coalescing engines that each have the same diameter and approximately the same shape, and are fitted with assembled bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を2倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is square turbine outer box angle Water is stored and stored in the unit. + Heat production by repeatedly compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compressing heat + Three types of turbine blades for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with three times the turbine blade cross section (4X) + Fully electrified house prime + Square pump outer box angle Water is stored and stored in the unit. + Heat production by repeatedly compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compressing heat + Three types of turbine blades for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 4 times the turbine blade cross section (4X) + full electrification house prime + pumping device (1J) square corner angle Installed in the section to save and save water + Compressed geothermal heating air, approached to 1200 degrees, heat production repeated heating and compression heat recovery + water compressed air acceleration to generate a moving blade group of three types of turbines for power generation Various energy storage cycle coalescing engines that collect the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater with the same diameter and approximately the same shape for each paragraph. タービン翼断面(4X)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of hydrogravity geothermal power generation 5 times + storage battery-powered various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery + water is accelerated with combustion gas, and moving blade groups of three types of power generation turbines are fitted to each paragraph with the same diameter and shape. Combined engine with various energy storage cycles that recovers geothermal heat with a combined bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4X) + storage battery-powered various automobiles primed + a pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for heat recovery from compressed air + water is accelerated by superheated steam, and the blades of the three types of turbines for power generation are fitted with the same diameter and the same shape for each stage. Combined engine with various energy storage cycles that recovers geothermal heat with a combined bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross-section (4X) of 7 times + storage battery-powered various automobiles primed + a water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for heat recovery from compressed air + water is accelerated by superheated steam, and the blades of the three types of turbines for power generation are fitted with the same diameter and the same shape for each stage. Combined engine with various energy storage cycles that recovers geothermal heat with a combined bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 8 times + storage battery powered various automobiles primed + a water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for heat recovery from compressed air + water is accelerated by superheated steam, and the blades of the three types of turbines for power generation are fitted with the same diameter and the same shape for each stage. Combined engine with various energy storage cycles that recovers geothermal heat with a combined bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times hydrogravity geothermal power generation structure and method + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for heat recovery from compressed air + water is accelerated by superheated steam, and the blades of the three types of turbines for power generation are fitted with the same diameter and the same shape for each stage. Combined engine with various energy storage cycles that recovers geothermal heat with a combined bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically and vertically by using multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) 10 times larger + Making hot and cold energy primed + Collecting geothermal heat with a geothermal air heater (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 14 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times as many hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner corner of square type turbine to ascend and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C and repeating heat recovery by heating and compressing heat recovery + Accelerating alloy water with compressed air and moving blade groups of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Accelerates water with combustion gas and generates three types of turbine blades for power generation with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17-fold hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery by repeating compressed heat recovery + Accelerated rolling contact with alloy water with compressed air and the same blade group of three power generation turbines for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by fitting bolt assembly turbine drive + geothermal air heater as approximately the same diameter. タービン翼断面(4X)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed in corner corner of square type turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and heat and compresses heat separately. + Water is accelerated by contact with combustion gas, and the blades of three types of power generation turbines have the same diameter for each paragraph. Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is raised and stored + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Accelerating water with superheated steam, and moving blades of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 20 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that combine three types of turbine blades with the same diameter and shape of each stage, and collect geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4X) + making use of hot and cold heat + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を25倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4X) + making the whole electrified housing primed + pumping device (1J) square corner angle Water is stored and stored in the part + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and heat recovery + Accelerating water vertically downwards Various energy storage cycle coalescing engines that each have the same diameter and approximately the same shape, and are fitted with assembled bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 26 times the turbine blade cross section (4X) + full electrified housing prime + pumping device (1J) with square turbine outer box angle Water is stored and stored in the part + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and heat recovery + Accelerating water vertically downwards Various energy storage cycle coalescing engines that each have the same diameter and approximately the same shape, and are fitted with assembled bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を2倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is square turbine outer box angle Water is stored and stored in the unit. + Heat production by repeatedly compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compressing heat + Three types of turbine blades for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with triple turbine blade cross section (4X) + full electrified housing prime + pumping device (1J) is square turbine outer box angle Water is stored and stored in the unit. + Heat production by repeatedly compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compressing heat + Three types of turbine blades for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing water gravity geothermal turbines with four times the turbine blade cross-section (4X) + full electrification house prime + pumping device (1J) square-type turbine outer box angle Installed in the section to save and save water + Compressed geothermal heating air, approached to 1200 degrees, heat production that repeats heating and compression heat recovery + Compressed air to accelerate water, and three blades of power generation turbines Various energy storage cycle coalescing engines with geometries recovered by fitting bolt assembly turbine drive + geothermal air heaters with the same diameter and approximately the same shape for each paragraph. タービン翼断面(4X)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を垂直下方に加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of hydrogravity geothermal power generation 5 times + storage battery-powered various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production by compressing heated air, approaching 1200 degrees, heat production that repeats heat and compression heat recovery + accelerating the alloy water vertically downward to make the blade group of the three types of power generation turbines have the same diameter and the same shape for each stage Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4X) + storage battery-powered various automobiles primed + a pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for heat recovery from compressed air + water is accelerated by superheated steam, and the blades of the three types of turbines for power generation are fitted with the same diameter and the same shape for each stage. Combined engine with various energy storage cycles that recovers geothermal heat with a combined bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross-section (4X) of 7 times + storage battery-powered various automobiles primed + a water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for heat recovery from compressed air + water is accelerated by superheated steam, and the blades of the three types of turbines for power generation are fitted with the same diameter and the same shape for each stage. Combined engine with various energy storage cycles that recovers geothermal heat with a combined bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 8 times + storage battery powered various automobiles primed + a water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for heat recovery from compressed air + water is accelerated by superheated steam, and the blades of the three types of turbines for power generation are fitted with the same diameter and the same shape for each stage. Combined engine with various energy storage cycles that recovers geothermal heat with a combined bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times hydrogravity geothermal power generation structure and method + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for heat recovery from compressed air + water is accelerated by superheated steam, and the blades of the three types of turbines for power generation are fitted with the same diameter and the same shape for each stage. Combined engine with various energy storage cycles that recovers geothermal heat with a combined bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically and vertically by using multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) 10 times larger + Making hot and cold energy primed + Collecting geothermal heat with a geothermal air heater (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 14 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times as many hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner corner of square type turbine to ascend and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C and repeating heat recovery by heating and compressing heat recovery + Accelerating alloy water with compressed air and moving blade groups of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Accelerates water with combustion gas and generates three types of turbine blades for power generation with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater as the same shape. タービン翼断面(4X)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17-fold hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery by repeating compressed heat recovery + Accelerated rolling contact with alloy water with compressed air and the same blade group of three power generation turbines for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by fitting bolt assembly turbine drive + geothermal air heater as approximately the same diameter. タービン翼断面(4X)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed in corner corner of square type turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and heat and compresses heat separately. + Water is accelerated by contact with combustion gas, and the blades of three types of power generation turbines have the same diameter for each paragraph. Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is raised and stored + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Accelerating water with superheated steam, and moving blades of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 20 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4X) + making use of hot and cold heat + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を25倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 25 times + making the whole electrified house prime + pumping device (1J) square corner angle Water is stored and stored in the part + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and heat recovery + Accelerating water vertically downwards Various energy storage cycle coalescing engines that each have the same diameter and approximately the same shape, and are fitted with assembled bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 26 times the turbine blade cross section (4X) + full electrified housing prime + pumping device (1J) with square turbine outer box angle Water is stored and stored in the part + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and heat recovery + Accelerating water vertically downwards Various energy storage cycle coalescing engines that each have the same diameter and approximately the same shape, and are fitted with assembled bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を2倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is square turbine outer box angle Water is stored and stored in the unit. + Heat production by repeatedly compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compressing heat + Three types of turbine blades for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with triple turbine blade cross section (4X) + full electrified housing prime + pumping device (1J) is square turbine outer box angle Water is stored and stored in the unit. + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C and repeating heat recovery by heating and compression. + Three kinds of turbine blades for power generation using water as an accelerated rolling contact vertically downward. Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing water gravity geothermal turbines with four times the turbine blade cross-section (4X) + full electrification house prime + pumping device (1J) square-type turbine outer box angle Installed in the section to save and save water + Compressed geothermal heating air, approached to 1200 degrees, heat production repeated heating and compression heat recovery + water compressed air acceleration to generate a moving blade group of three types of turbines for power generation Various energy storage cycle coalescing engines with geometries recovered by fitting bolt assembly turbine drive + geothermal air heaters with the same diameter and approximately the same shape for each paragraph. タービン翼断面(4X)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を垂直下方に加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of hydrogravity geothermal power generation 5 times + storage battery-powered various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production by compressing heated air, approaching 1200 degrees, heat production that repeats heat and compression heat recovery + accelerating the alloy water vertically downward to make the blade group of the three types of power generation turbines have the same diameter and the same shape for each stage Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4X) + storage battery-powered various automobiles primed + a pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + geothermal Compressed heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + accelerating water with superheated steam to make three types of turbine blade groups with the same diameter and shape with each stage fitting bolt Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4X)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross-section (4X) of 7 times + storage battery-powered various automobiles primed + a water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for heat recovery from compressed air + water is accelerated by superheated steam, and the blades of the three types of turbines for power generation are fitted with the same diameter and the same shape for each stage. Combined engine with various energy storage cycles that recovers geothermal heat with a combined bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 8 times + storage battery powered various automobiles primed + a water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for heat recovery from compressed air + water is accelerated by superheated steam, and the blades of the three types of turbines for power generation are fitted with the same diameter and the same shape for each stage. Combined engine with various energy storage cycles that recovers geothermal heat with a combined bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times hydrogravity geothermal power generation structure and method + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for heat recovery from compressed air + water is accelerated by superheated steam, and the blades of the three types of turbines for power generation are fitted with the same diameter and the same shape for each stage. Combined engine with various energy storage cycles that recovers geothermal heat with a combined bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically and vertically by using multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) 10 times larger + Making hot and cold energy primed + Collecting geothermal heat with a geothermal air heater (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 14 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times as many hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner corner of square type turbine to ascend and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C and repeating heat recovery by heating and compressing heat recovery + Accelerating alloy water with compressed air and moving blade groups of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Accelerates water with combustion gas and generates three types of turbine blades for power generation with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater as the same shape. タービン翼断面(4X)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17-fold hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery by repeating compressed heat recovery + Accelerated rolling contact with alloy water with compressed air and the same blade group of three power generation turbines for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by fitting bolt assembly turbine drive + geothermal air heater as approximately the same diameter. タービン翼断面(4X)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed in corner corner of square type turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and heat and compresses heat separately. + Water is accelerated by contact with combustion gas, and the blades of three types of power generation turbines have the same diameter for each paragraph. Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is raised and stored + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Accelerating water with superheated steam, and moving blades of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 20 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that combine three types of turbine blades with the same diameter and shape of each stage, and collect geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4X) + making use of hot and cold heat + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を25倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 25 times + making the whole electrified house prime + pumping device (1J) square corner angle Water is stored and stored in the part + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and heat recovery + Accelerating water vertically downwards Various energy storage cycle coalescing engines that each have the same diameter and approximately the same shape, and are fitted with assembled bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 26 times the turbine blade cross section (4X) + full electrified housing prime + pumping device (1J) with square turbine outer box angle Water is stored and stored in the part + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and heat recovery + Accelerating water vertically downwards Various energy storage cycle coalescing engines that each have the same diameter and approximately the same shape, and are fitted with assembled bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を2倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is square turbine outer box angle Water is stored and stored in the unit. + Heat production by repeatedly compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compressing heat + Three types of turbine blades for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with triple turbine blade cross section (4X) + full electrified housing prime + pumping device (1J) is square turbine outer box angle Water is stored and stored in the unit. + Heat production by repeatedly compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compressing heat + Three types of turbine blades for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 4 times the turbine blade cross section (4X) + full electrification house prime + pumping device (1J) square corner angle Installed in the section to save and save water + Compressed geothermal heating air, approached to 1200 degrees, heat production repeated heating and compression heat recovery + water compressed air acceleration to generate a moving blade group of three types of turbines for power generation Various energy storage cycle coalescing engines that collect the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater with the same diameter and approximately the same shape for each paragraph. タービン翼断面(4X)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of hydrogravity geothermal power generation 5 times + storage battery-powered various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + alloy water is accelerated vertically downward, and the rotor blade groups of three types of turbines are fitted with the same diameter and shape of each paragraph Bolt assembly turbine drive + various energy storage cycle coalescence engine that collects geothermal heat with a geothermal air heater. タービン翼断面(4X)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4X) + storage battery-powered various automobiles primed + a pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + geothermal Compressed heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + accelerating water with superheated steam to make three types of turbine blade groups with the same diameter and shape with each stage fitting bolt Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4X)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross-section (4X) of 7 times + storage battery-powered various automobiles primed + a water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for heat recovery from compressed air + water is accelerated by superheated steam, and the blades of the three types of turbines for power generation are fitted with the same diameter and the same shape for each stage. Combined engine with various energy storage cycles that recovers geothermal heat with a combined bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水合金を加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 8 times + storage battery powered various automobiles primed + a water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated, and heat is compressed and heat recovery is repeated + water alloy is accelerated and rolled, and the three blades of power generation turbines are fitted with the same diameter and shape of each stage. Bolt assembly turbine drive + various energy storage cycle coalescence engine that collects geothermal heat with a geothermal air heater. タービン翼断面(4X)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times hydrogravity geothermal power generation structure and method + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production by compressing heated air and bringing it closer to 1200 degrees Heat production by repeating heat and compression heat recovery + Accelerating alloy water with compressed air to make the blades of the three types of turbines have the same diameter and shape with each stage Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically and vertically by using multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) 10 times larger + Making hot and cold energy primed + Collecting geothermal heat with a geothermal air heater (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 14 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times as many hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner corner of square type turbine to ascend and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C and repeating heat recovery by heating and compressing heat recovery + Accelerating alloy water with compressed air and moving blade groups of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Accelerates water with combustion gas and generates three types of turbine blades for power generation with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater as the same shape. タービン翼断面(4X)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17-fold hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery by repeating compressed heat recovery + Accelerated rolling contact with alloy water with compressed air and the same blade group of three power generation turbines for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by fitting bolt assembly turbine drive + geothermal air heater as approximately the same diameter. タービン翼断面(4X)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed in corner corner of square type turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and heat and compresses heat separately. + Water is accelerated by contact with combustion gas, and the blades of three types of power generation turbines have the same diameter for each paragraph. Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is raised and stored + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C and repeating heat recovery by heating and compressing heat recovery + Accelerating alloy water with compressed air and moving blade groups of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 20 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that combine three types of turbine blades with the same diameter and shape of each stage, and collect geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4X) + making use of hot and cold heat + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を25倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 25 times + making the whole electrified house prime + pumping device (1J) square corner angle Water is stored and stored in the part + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and heat recovery + Accelerating water vertically downwards Various energy storage cycle coalescing engines that each have the same diameter and approximately the same shape, and are fitted with assembled bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 26 times the turbine blade cross section (4X) + full electrified housing prime + pumping device (1J) with square turbine outer box angle Water is stored and stored in the part + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and heat recovery + Accelerating water vertically downwards Various energy storage cycle coalescing engines that each have the same diameter and approximately the same shape, and are fitted with assembled bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を2倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is square turbine outer box angle Water is stored and stored in the unit. + Heat production by repeatedly compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compressing heat + Three types of turbine blades for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with triple turbine blade cross section (4X) + full electrified housing prime + pumping device (1J) is square turbine outer box angle Water is stored and stored in the unit. + Heat production by repeatedly compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compressing heat + Three types of turbine blades for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 4 times the turbine blade cross section (4X) + full electrification house prime + pumping device (1J) square corner angle Installed in the section to save and save water + Compressed geothermal heating air, approached to 1200 degrees, heat production repeated heating and compression heat recovery + water compressed air acceleration to generate a moving blade group of three types of turbines for power generation Various energy storage cycle coalescing engines that collect the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater with the same diameter and approximately the same shape for each paragraph. タービン翼断面(4X)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of hydrogravity geothermal power generation 5 times + storage battery-powered various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + alloy water is accelerated vertically downward, and the rotor blade groups of three types of turbines are fitted with the same diameter and shape of each paragraph Bolt assembly turbine drive + various energy storage cycle coalescence engine that collects geothermal heat with a geothermal air heater. タービン翼断面(4X)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4X) + storage battery-powered various automobiles primed + a pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + geothermal Compressed heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + accelerating water with superheated steam to make three types of turbine blade groups with the same diameter and shape with each stage fitting bolt Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4X)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross-section (4X) of 7 times + storage battery-powered various automobiles primed + a water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production compresses heated air close to 1200 ° C, heat production repeats heating and compression heat recovery + accelerating rolling contact with alloy water, and power generation of three types of turbine blades are fitted to each paragraph with the same diameter and shape. Bolt assembly turbine drive + various energy storage cycle coalescence engine that collects geothermal heat with a geothermal air heater. タービン翼断面(4X)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+より水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 8 times + storage battery powered various automobiles primed + a water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production by compressing heated air and bringing it closer to 1200 degrees, heating and compressing heat from another air + Accelerated rolling contact with combustion gas from water, and moving blade groups of three types of turbines with the same diameter and shape of each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine that recovers geothermal with geothermal air heater. タービン翼断面(4X)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times hydrogravity geothermal power generation structure and method + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for heat recovery from compressed air + water is accelerated by superheated steam, and the blades of the three types of turbines for power generation are fitted with the same diameter and the same shape for each stage. Combined engine with various energy storage cycles that recovers geothermal heat with a combined bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically and vertically by using multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) 10 times larger + Making hot and cold energy primed + Collecting geothermal heat with a geothermal air heater (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 14 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times as many hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner corner of square type turbine to ascend and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C and repeating heat recovery by heating and compressing heat recovery + Accelerating alloy water with compressed air and moving blade groups of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Accelerates water with combustion gas and generates three types of turbine blades for power generation with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater as the same shape. タービン翼断面(4X)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17-fold hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery by repeating compressed heat recovery + Accelerated rolling contact with alloy water with compressed air and the same blade group of three power generation turbines for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by fitting bolt assembly turbine drive + geothermal air heater as approximately the same diameter. タービン翼断面(4X)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+より水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed in corner corner of square type turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 ° C and repeats heat recovery by compressing and recovering heat + Accelerated rolling contact with combustion gas from water, and the three blades of power generation turbines are the same for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by fitting bolt assembly turbine drive + geothermal air heater as approximately the same diameter. タービン翼断面(4X)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is raised and stored + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Accelerating water with superheated steam, and moving blades of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 20 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that combine three types of turbine blades with the same diameter and shape of each stage, and collect geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4X) + making use of hot and cold heat + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を25倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 25 times + making the whole electrified house prime + pumping device (1J) square corner angle Water is stored and stored in the part + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and heat recovery + Accelerating water vertically downwards Various energy storage cycle coalescing engines that each have the same diameter and approximately the same shape, and are fitted with assembled bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 26 times the turbine blade cross section (4X) + full electrified housing prime + pumping device (1J) with square turbine outer box angle Water is stored and stored in the part + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and heat recovery + Accelerating water vertically downwards Various energy storage cycle coalescing engines that each have the same diameter and approximately the same shape, and are fitted with assembled bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を2倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is square turbine outer box angle Water is stored and stored in the unit. + Heat production by repeatedly compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compressing heat + Three types of turbine blades for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with triple turbine blade cross section (4X) + full electrified housing prime + pumping device (1J) is square turbine outer box angle Water is stored and stored in the unit. + Heat production by repeatedly compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compressing heat + Three types of turbine blades for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 4 times the turbine blade cross section (4X) + full electrification house prime + pumping device (1J) square corner angle Installed in the section to save and save water + Compressed geothermal heating air, approached to 1200 degrees, heat production repeated heating and compression heat recovery + water compressed air acceleration to generate a moving blade group of three types of turbines for power generation Various energy storage cycle coalescing engines that collect the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater with the same diameter and approximately the same shape for each paragraph. タービン翼断面(4X)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of hydrogravity geothermal power generation 5 times + storage battery-powered various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + alloy water is accelerated vertically downward, and the rotor blade groups of three types of turbines are fitted with the same diameter and shape of each paragraph Bolt assembly turbine drive + various energy storage cycle coalescence engine that collects geothermal heat with a geothermal air heater. タービン翼断面(4X)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水合金を加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4X) + storage battery-powered various automobiles primed + a pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + geothermal Heat production compresses heating air to 1200 degrees, heat production repeats heating and compression heat recovery + accelerating water alloy and moving blade group of power generation three types of turbine blades with the same diameter and shape for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by assembly turbine drive + geothermal air heater. タービン翼断面(4X)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross-section (4X) of 7 times + storage battery-powered various automobiles primed + a water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production by compressing heated air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + accelerating rolling contact with water with combustion gas, and moving blade groups of three types of power generation turbines with the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 8 times + storage battery powered various automobiles primed + a water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production by compressing heated air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + accelerating rolling contact with water with combustion gas, and moving blade groups of three types of power generation turbines with the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times hydrogravity geothermal power generation structure and method + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for heat recovery from compressed air + water is accelerated by superheated steam, and the blades of the three types of turbines for power generation are fitted with the same diameter and the same shape for each stage. Combined engine with various energy storage cycles that recovers geothermal heat with a combined bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically and vertically by using multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) 10 times larger + Making hot and cold energy primed + Collecting geothermal heat with a geothermal air heater (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 14 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times as many hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner corner of square type turbine to ascend and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C and repeating heat recovery by heating and compressing heat recovery + Accelerating alloy water with compressed air and moving blade groups of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Accelerates water with combustion gas and generates three types of turbine blades for power generation with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater as the same shape. タービン翼断面(4X)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17-fold hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and heat and compresses heat separately. + Water is accelerated by contact with combustion gas, and the blades of three types of power generation turbines have the same diameter for each paragraph. Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed in corner corner of square type turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and heat and compresses heat separately. + Water is accelerated by contact with combustion gas, and the blades of three types of power generation turbines have the same diameter for each paragraph. Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is raised and stored + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Accelerating water with superheated steam, and moving blades of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 20 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that combine three types of turbine blades with the same diameter and shape of each stage, and collect geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4X) + making use of hot and cold heat + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を25倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 25 times + making the whole electrified house prime + pumping device (1J) square corner angle Water is stored and stored in the part + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and heat recovery + Accelerating water vertically downwards Various energy storage cycle coalescing engines that each have the same diameter and approximately the same shape, and are fitted with assembled bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 26 times the turbine blade cross section (4X) + full electrified housing prime + pumping device (1J) with square turbine outer box angle Water is stored and stored in the part + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and heat recovery + Accelerating water vertically downwards Various energy storage cycle coalescing engines that each have the same diameter and approximately the same shape, and are fitted with assembled bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を2倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is square turbine outer box angle Water is stored and stored in the unit. + Heat production by repeatedly compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compressing heat + Three types of turbine blades for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with triple turbine blade cross section (4X) + full electrified housing prime + pumping device (1J) is square turbine outer box angle Water is stored and stored in the unit. + Heat production by repeatedly compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compressing heat + Three types of turbine blades for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 4 times the turbine blade cross section (4X) + full electrification house prime + pumping device (1J) square corner angle Installed in the section to save and save water + Compressed geothermal heating air, approached to 1200 degrees, heat production repeated heating and compression heat recovery + water compressed air acceleration to generate a moving blade group of three types of turbines for power generation Various energy storage cycle coalescing engines that collect the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater with the same diameter and approximately the same shape for each paragraph. タービン翼断面(4X)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of hydrogravity geothermal power generation 5 times + storage battery-powered various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for heat recovery from compressed air + water is accelerated by superheated steam, and the blades of the three types of turbines for power generation are fitted with the same diameter and the same shape for each stage. Combined engine with various energy storage cycles that recovers geothermal heat with a combined bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4X) + storage battery-powered various automobiles primed + a pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for heat recovery from compressed air + water is accelerated by superheated steam, and the blades of the three types of turbines for power generation are fitted with the same diameter and the same shape for each stage. Combined engine with various energy storage cycles that recovers geothermal heat with a combined bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross-section (4X) of 7 times + storage battery-powered various automobiles primed + a water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production by compressing heated air, approaching 1200 degrees, heat production by repeating separate heating and compression heat recovery + accelerating rolling contact with alloy water with compressed air, and moving blade groups of three types of turbines with the same diameter and shape of each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine that recovers geothermal with geothermal air heater. タービン翼断面(4X)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 8 times + storage battery powered various automobiles primed + a water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production by compressing heated air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + accelerating rolling contact with water with combustion gas, and moving blade groups of three types of power generation turbines with the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times hydrogravity geothermal power generation structure and method + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for heat recovery from compressed air + water is accelerated by superheated steam, and the blades of the three types of turbines for power generation are fitted with the same diameter and the same shape for each stage. Combined engine with various energy storage cycles that recovers geothermal heat with a combined bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically and vertically by using multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) 10 times larger + Making hot and cold energy primed + Collecting geothermal heat with a geothermal air heater (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 14 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times as many hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner corner of square type turbine to ascend and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C and repeating heat recovery by heating and compressing heat recovery + Accelerating alloy water with compressed air and moving blade groups of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Accelerating water with superheated steam, and moving blades of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17-fold hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery by repeating compressed heat recovery + Accelerated rolling contact with alloy water with compressed air and the same blade group of three power generation turbines for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat by fitting bolt assembly turbine drive + geothermal air heater as approximately the same diameter. タービン翼断面(4X)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed in corner corner of square type turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees, and heat and compresses heat separately. + Water is accelerated by contact with combustion gas, and the blades of three types of power generation turbines have the same diameter for each paragraph. Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is raised and stored + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Accelerating water with superheated steam, and moving blades of three types of turbines with the same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly turbine drive and a geothermal air heater. タービン翼断面(4X)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 20 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that use three types of turbine blades with the same diameter and the same shape for each paragraph and recover geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating heat compression heat recovery + accelerating the water vertically downward A variety of energy storage cycle coalescing engines that combine three types of turbine blades with the same diameter and shape of each stage, and collect geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescing engine that collects turbine blades of three types of turbines for power generation as a contact with the same diameter and the same shape for each stage and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4X) + making use of hot and cold heat + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engines that collect the three blades of power generation turbines with the same diameter and the same shape for each paragraph and recover the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を25倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 25 times + making the whole electrified house prime + pumping device (1J) square corner angle Water is stored and stored in the part + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and heat recovery + Accelerating water vertically downwards Various energy storage cycle coalescing engines that each have the same diameter and approximately the same shape, and are fitted with assembled bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 26 times the turbine blade cross section (4X) + full electrified housing prime + pumping device (1J) with square turbine outer box angle Water is stored and stored in the part + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and heat recovery + Accelerating water vertically downwards Various energy storage cycle coalescing engines that each have the same diameter and approximately the same shape, and are fitted with assembled bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を2倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is square turbine outer box angle Water is stored and stored in the unit. + Heat production by repeatedly compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compressing heat + Three types of turbine blades for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with triple turbine blade cross section (4X) + full electrified housing prime + pumping device (1J) is square turbine outer box angle Water is stored and stored in the unit. + Heat production by repeatedly compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compressing heat + Three types of turbine blades for power generation with accelerated rolling contact with water vertically downward Various energy storage cycle coalescing engines in which the group is roughly the same shape for each paragraph and the geothermal heat is recovered with a fitting bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 4 times the turbine blade cross section (4X) + full electrification house prime + pumping device (1J) square corner angle Installed in the section to save and save water + Compressed geothermal heating air, approached to 1200 degrees, heat production repeated heating and compression heat recovery + water compressed air acceleration to generate a moving blade group of three types of turbines for power generation Various energy storage cycle coalescing engines that collect the geothermal heat with a mating bolt assembly turbine drive + geothermal air heater with the same diameter and approximately the same shape for each paragraph. タービン翼断面(4X)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of hydrogravity geothermal power generation 5 times + storage battery-powered various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery + water is accelerated with combustion gas, and moving blade groups of three types of power generation turbines are fitted to each paragraph with the same diameter and shape. Combined engine with various energy storage cycles that recovers geothermal heat with a combined bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4X) + storage battery-powered various automobiles primed + a pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery + water is accelerated with combustion gas, and moving blade groups of three types of power generation turbines are fitted to each paragraph with the same diameter and shape. Combined engine with various energy storage cycles that recovers geothermal heat with a combined bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross-section (4X) of 7 times + storage battery-powered various automobiles primed + a water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production by compressing heated air, approaching 1200 degrees, heat production by repeating separate heating and compression heat recovery + accelerating rolling contact with alloy water with compressed air, and moving blade groups of three types of turbines with the same diameter and shape of each paragraph Assemble bolt assembly turbine drive + various energy storage cycle coalescence engine that recovers geothermal with geothermal air heater. タービン翼断面(4X)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 8 times + storage battery powered various automobiles primed + a water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production by compressing heated air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + accelerating rolling contact with water with combustion gas, and moving blade groups of three types of power generation turbines with the same diameter and shape of each paragraph Coupling engine with various energy storage cycles that recovers geothermal heat with mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times hydrogravity geothermal power generation structure and method + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed to close to 1200 degrees, heat production is repeated for heat recovery from compressed air + water is accelerated by superheated steam, and the blades of the three types of turbines for power generation are fitted with the same diameter and the same shape for each stage. Combined engine with various energy storage cycles that recovers geothermal heat with a combined bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を10倍の水重力地熱発電海水温度上昇0CO2排気僅少で発電量増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 10 times hydrogravity geothermal power generation Seawater temperature rise 0 CO2 exhaust is small and power generation is increased + Water pumping device (1J) is installed in the corner of the square turbine outer box to save water + Geothermal heating air Heat is compressed close to 1200 degrees, heat is separately heated, and heat is compressed and heat recovery is repeated. + Three types of turbine blade temperature control turbines that increase the amount of accelerated power generation vertically below the water. Fully automatic processing is possible. As a combination bolt assembly drive + various energy storage cycle coalescence engine that recovers geothermal heat with a geothermal air heater. タービン翼断面(4X)を11倍の水重力地熱発電海水温度上昇0CO2排気僅少で発電量増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times hydrogravity geothermal power generation Seawater temperature rise 0 CO2 exhaust is small and power generation is increased + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Geothermal heating air Heating by compressing the air and bringing it closer to 1200 degrees Heating and regenerating heat by compressing heat + Accelerating water with combustion gas and increasing the amount of power generation Three types of turbine blade temperature control turbines can be fully automatically processed The same diameter per paragraph Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as approximately the same shape. タービン翼断面(4X)を12倍の水重力地熱発電海水温度上昇0CO2排気僅少で発電量増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 12 times hydrogravity geothermal power generation Seawater temperature rise 0 CO2 exhaust is small and power generation is increased + Water pump is installed at the corner of square turbine outer box to save water + Geothermal heating air Compressed and heated close to 1200 degrees Heating another air repeatedly heat compression heat recovery + Accelerated rolling contact with alloy water with compressed air Three types of turbine blade temperature control turbines with increased power generation can be fully automated Combined engine with various energy storage cycles that collects geothermal heat with a mating bolt assembly drive and a geothermal air heater with the same diameter. タービン翼断面(4X)を13倍の水重力地熱発電海水温度上昇0CO2排気僅少で発電量増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times hydrogravity geothermal power generation Seawater temperature rise 0 CO2 exhaust is small and power generation is increased + Water pumping device (1J) is installed at the corner of square turbine outer box + water is stored + geothermal heating air Compressed and heated to 1200 degrees, heat production is repeated for another air, and heat recovery is repeated + Accelerated rolling contact with water as combustion gas, and three types of turbine blade temperature control turbines with increased power generation can be fully automated Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly drive and a geothermal air heater as the same diameter. タービン翼断面(4X)を14倍の水重力地熱発電海水温度上昇0CO2排気僅少で発電量増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times hydrogravity geothermal power generation Seawater temperature rise 0 CO2 exhaust is small and power generation is increased + Water pumping device (1J) is installed at the corner of square turbine outer box to save water + Geothermal heating air Compressed and heated close to 1200 ° C Heat production by repeatedly collecting compressed air and recovering heat + Accelerating water with superheated steam to increase power generation 3 turbine blade temperature control turbines can be fully automatically processed The same diameter per paragraph Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as approximately the same shape. タービン翼断面(4X)を15倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 15 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を16倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大を全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を多段に設けて1000倍発電量を狙う各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 16 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various energy storage cycle coalescing engines aiming at 1000 times power generation by providing three stages of turbines that are assembled and driven by fitting bolts with the same diameter and shape of each paragraph so that the power generation can be fully automated. タービン翼断面(4X)を17倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 17 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を18倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 18 times the turbine blade cross-section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を19倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 19 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 20 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4X) + making use of hot and cold heat + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を25倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 25 times + accelerating water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, heated to 1200 degrees and heated to repeatedly heat and compress heat recovery + Three types of turbine blade temperature to accelerate water generation vertically downward Various energy storage cycle coalescence engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and almost the same shape for each paragraph to enable fully automatic processing of the managed turbine. タービン翼断面(4X)を26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 26 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Accelerating water with superheated steam to increase power generation 3 types of turbines Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を2倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4X) + accelerating the storage battery-powered various ships + pumping device (1J) outside square turbine 3 types of heat production by compressing the geothermal heating air and bringing it closer to 1200 degrees, repeating the heat and compression heat recovery, and increasing the amount of power generation by accelerating and rolling the water vertically downward and contacting Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with three times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine 3 types of heat production by compressing the geothermal heating air and bringing it closer to 1200 degrees, repeating the heat and compression heat recovery, and increasing the amount of power generation by accelerating and rolling the water vertically downward and contacting Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with four times the turbine blade cross-section (4X) + storage battery-powered various vessels primed + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heat recovery by heating and compression + Three types of turbine blades to increase power generation by accelerating water and compressed air Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を5倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 5 times the turbine blade cross section (4X) + accelerating the storage battery drive + pumping equipment (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, heated to 1200 degrees and heated to repeatedly heat and compress heat recovery + Three types of turbine blade temperature to accelerate water generation vertically downward Various energy storage cycle coalescence engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and almost the same shape for each paragraph to enable fully automatic processing of the managed turbine. タービン翼断面(4X)を6倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 6 times the turbine blade cross section (4X) + accelerating the water storage + various types of vessels driven + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, heated to 1200 degrees and heated to repeatedly heat and compress heat recovery + Three types of turbine blade temperature to accelerate water generation vertically downward Various energy storage cycle coalescence engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and almost the same shape for each paragraph to enable fully automatic processing of the managed turbine. タービン翼断面(4X)を7倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 7 times the turbine blade cross section (4X) + accelerating the storage battery drive + pumping equipment (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, heated to 1200 degrees and heated to repeatedly heat and compress heat recovery + Three types of turbine blade temperature to accelerate water generation vertically downward Various energy storage cycle coalescence engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and almost the same shape for each paragraph to enable fully automatic processing of the managed turbine. タービン翼断面(4X)を8倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 8 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, heated to 1200 degrees and heated to repeatedly heat and compress heat recovery + Three types of turbine blade temperature to accelerate water generation vertically downward Various energy storage cycle coalescence engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and almost the same shape for each paragraph to enable fully automatic processing of the managed turbine. タービン翼断面(4X)を9倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 9 times the turbine blade cross section (4X) + storage battery-powered various ships primed + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, heated to 1200 degrees and heated to repeatedly heat and compress heat recovery + Three types of turbine blade temperature to accelerate water generation vertically downward Various energy storage cycle coalescence engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and almost the same shape for each paragraph to enable fully automatic processing of the managed turbine. タービン翼断面(4X)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 10 times + accelerating water vertically + accelerating the storage battery drive + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Accelerating water with superheated steam to increase power generation 3 types of turbines Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing 11-fold hydrogravity geothermal turbines with 11 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Accelerating water with superheated steam to increase power generation 3 types of turbines Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross section (4X) + accelerating water storage + various types of vessels driven + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Accelerating water with superheated steam to increase power generation 3 types of turbines Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Accelerating water with superheated steam to increase power generation 3 types of turbines Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 14 times the turbine blade cross-section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Accelerating water with superheated steam to increase power generation 3 types of turbines Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を15倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 15 times + accelerating water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine 3 types of heat production by compressing the geothermal heating air and bringing it closer to 1200 degrees, repeating the heat and compression heat recovery, and increasing the amount of power generation by accelerating and rolling the water vertically downward and contacting Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を16倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 16 times + accelerating the water vertically + accelerating storage battery-powered vessels + pumping device (1J) outside square turbine 3 types of heat production by compressing the geothermal heating air and bringing it closer to 1200 degrees, repeating the heat and compression heat recovery, and increasing the amount of power generation by accelerating and rolling the water vertically downward and contacting Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を17倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 17 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine 3 types of heat production by compressing the geothermal heating air and bringing it closer to 1200 degrees, repeating the heat and compression heat recovery, and increasing the amount of power generation by accelerating and rolling the water vertically downward and contacting Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を18倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 18 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine 3 types of heat production by compressing the geothermal heating air and bringing it closer to 1200 degrees, repeating the heat and compression heat recovery, and increasing the amount of power generation by accelerating and rolling the water vertically downward and contacting Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を19倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19-times hydrogravity geothermal turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various ships prime + pumping device (1J) outside square turbine 3 types of heat production by compressing the geothermal heating air and bringing it closer to 1200 degrees, repeating the heat and compression heat recovery, and increasing the amount of power generation by accelerating and rolling the water vertically downward and contacting Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 20 times + accelerating water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine 3 types of heat production by compressing the geothermal heating air and bringing it closer to 1200 degrees, repeating the heat and compression heat recovery, and increasing the amount of power generation by accelerating and rolling the water vertically downward and contacting Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4X) + accelerating the storage battery drive + pumping device (1J) outside the square turbine 3 types of heat production by compressing the geothermal heating air and bringing it closer to 1200 degrees, repeating the heat and compression heat recovery, and increasing the amount of power generation by accelerating and rolling the water vertically downward and contacting Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine 3 types of heat production by compressing the geothermal heating air and bringing it closer to 1200 degrees, repeating the heat and compression heat recovery, and increasing the amount of power generation by accelerating and rolling the water vertically downward and contacting Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 23 times + accelerating water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine 3 types of heat production by compressing the geothermal heating air and bringing it closer to 1200 degrees, repeating the heat and compression heat recovery, and increasing the amount of power generation by accelerating and rolling the water vertically downward and contacting Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross-section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine 3 types of heat production by compressing the geothermal heating air and bringing it closer to 1200 degrees, repeating the heat and compression heat recovery, and increasing the amount of power generation by accelerating and rolling the water vertically downward and contacting Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を25倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 25 times + accelerating water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heat recovery by heating and compression + Three types of turbine blades to increase power generation by accelerating water and compressed air Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 26 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heat recovery by heating and compression + Three types of turbine blades to increase power generation by accelerating water and compressed air Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を2倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4X) + accelerating the storage battery-powered various ships + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heat recovery by heating and compression + Three types of turbine blades to increase power generation by accelerating water and compressed air Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with three times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heat recovery by heating and compression + Three types of turbine blades to increase power generation by accelerating water and compressed air Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with four times the turbine blade cross section (4X) + storage battery-powered various ships primed + water pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heat recovery by heating and compression + Three types of turbine blades to increase power generation by accelerating water and compressed air Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を5倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を多段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 5 times the turbine blade cross section (4X) + accelerating the storage battery drive + pumping equipment (1J) outside the square turbine Installed at the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Multiple stages of 3 assembly and drive turbines for each blade group Various energy storage cycle coalescence engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を6倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を多段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 6 times the turbine blade cross section (4X) + accelerating the water storage + various types of vessels driven + pumping device (1J) outside square turbine Installed at the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Multiple stages of 3 assembly and drive turbines for each blade group Various energy storage cycle coalescence engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を7倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を多段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 7 times the turbine blade cross section (4X) + accelerating the storage battery drive + pumping equipment (1J) outside the square turbine Installed at the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Multiple stages of 3 assembly and drive turbines for each blade group Various energy storage cycle coalescence engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を8倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を多段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 8 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed at the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Multiple stages of 3 assembly and drive turbines for each blade group Various energy storage cycle coalescence engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を9倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を多段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 9 times the turbine blade cross section (4X) + storage battery-powered various ships primed + pumping device (1J) outside square turbine Installed at the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Multiple stages of 3 assembly and drive turbines for each blade group Various energy storage cycle coalescence engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically and vertically by using multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) 10 times larger + Making hot and cold energy primed + Collecting geothermal heat with a geothermal air heater + Pumping equipment (1J) Increase the head + Pump the water pump (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it closer to 1200 degrees and repeat the heat recovery by heating and compressing heat recovery Manufacture + 3 types of turbine blade temperature control turbines that increase the amount of accelerated power generation vertically below the water. Fully automatic machining of turbine blades with the same diameter and shape of each stage. Various energy to collect geothermal heat with geothermal air heater. Conservation cycle coalescence organization. タービン翼断面(4X)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) Increase the head + Pump the water pump (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it closer to 1200 degrees and repeat the heat recovery by heating and compressing heat recovery Manufacture + Accelerate water with superheated steam to increase power generation 3 types Turbine blade temperature control turbines can be fully automatic machined The same diameter and shape of each paragraph can be assembled and fitted bolt assembly drive + geothermal air heater can be recovered Various energy conservation cycle coalescence engine. タービン翼断面(4X)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) Increase the head + Pump the water pump (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it closer to 1200 degrees and repeat the heat recovery by heating and compressing heat recovery Manufacture + 3 kinds of turbine blade temperature control turbines with increased power generation by accelerating rolling contact with water vertically downward Fully automatic processing of turbine blade temperature control turbines with the same diameter and shape of each paragraph Recovering geothermal heat with geothermal air heater Various energy conservation cycle coalescing engines. タービン翼断面(4X)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) Increase the head + Pump the water pump (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it closer to 1200 degrees and repeat the heat recovery by heating and compressing heat recovery Manufacture + 3 kinds of turbine blade temperature control turbines with increased power generation by accelerating rolling contact with water vertically downward Fully automatic processing of turbine blade temperature control turbines with the same diameter and shape of each paragraph Recovering geothermal heat with geothermal air heater Various energy conservation cycle coalescing engines. タービン翼断面(4X)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 14 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) Increase the head + Pump the water pump (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it closer to 1200 degrees and repeat the heat recovery by heating and compressing heat recovery Manufacture + 3 types of turbine blade temperature control turbines with increased power generation by accelerating water with compressed air to enable fully automatic processing. Energy conservation cycle coalescence engine. タービン翼断面(4X)を15倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 15 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を16倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 16 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を17倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 17 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を18倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 18 times the turbine blade cross-section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を19倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 19 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を20倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 20 times the hydrogravity geothermal power generation generation equipment method to make all turbine blades + power increase sphere (2E) is accelerated with a small diameter + geothermal heating air is compressed close to 1200 degrees Heat production that repeats heat and compression heat recovery of air + Three types of turbine blade temperature control turbines that increase the amount of accelerated power generation vertically downward Water can be fully automatically processed Fitting bolt assembly drive and geothermal air with almost the same shape for each stage Various energy storage cycle coalescence engine that recovers geothermal heat with a heater. タービン翼断面(4X)を21倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) with 21 times the hydrogravity geothermal power generation generating turbine blades + Accelerating with increased output sphere (2E) as small diameter + Compressing geothermal heating air and approaching 1200 degrees Heat production by repeatedly heating and compressing heat recovery of air + Accelerating water with superheated steam to increase power generation amount 3 types of turbine blade temperature controlled turbines can be fully automatically processed Fitting bolt assembly drive with the same diameter and shape of each paragraph + Various energy storage cycle coalescence engine that collects geothermal heat with a geothermal air heater. タービン翼断面(4X)を22倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times the hydrogravity geothermal power generation generation equipment method to make all turbine blades + power increase sphere (2E) small diameter + accelerate geothermal heating air close to 1200 degrees Heat production by repeatedly heating and compressing heat recovery of air + Accelerating water with superheated steam to increase power generation amount 3 types of turbine blade temperature controlled turbines can be fully automatically processed Fitting bolt assembly drive with the same diameter and shape of each paragraph + Various energy storage cycle coalescence engine that collects geothermal heat with a geothermal air heater. タービン翼断面(4X)を23倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times as many hydrogravity geothermal power generation generating turbine blades + Accelerating power increase sphere (2E) as small diameter + compressing geothermal heating air and approaching 1200 degrees Heat production by repeatedly heating and compressing heat recovery of air + Accelerating water with superheated steam to increase power generation amount 3 types of turbine blade temperature controlled turbines can be fully automatically processed Fitting bolt assembly drive with the same diameter and shape of each paragraph + Various energy storage cycle coalescence engine that collects geothermal heat with a geothermal air heater. タービン翼断面(4X)を24倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times the hydrogravity geothermal power generation generating equipment method to make all turbine blades + power increase sphere (2E) small diameter + accelerate geothermal heating air close to 1200 degrees Heat production by repeatedly heating and compressing heat recovery of air + Accelerating water with superheated steam to increase power generation amount 3 types of turbine blade temperature controlled turbines can be fully automatically processed Fitting bolt assembly drive with the same diameter and shape of each paragraph + Various energy storage cycle coalescence engine that collects geothermal heat with a geothermal air heater. タービン翼断面(4X)を25倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+出力増大球(2E)を小径として加速タービン駆動する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward by providing multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4X) + Accelerating turbine drive with a small output sphere (2E) diameter + Geothermal heating air Compressed and heated close to 1200 degrees Heating another air Repeated compression heat recovery + Water vertically accelerating power generation 3 types of turbine blade temperature control turbines can be fully automatically processed The same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater. タービン翼断面(4X)を26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+出力増大球(2E)を小径として加速タービン駆動する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward by providing multiple stages of hydrogravity geothermal turbines with 26 times the turbine blade cross section (4X) + Accelerating turbine driving with a small diameter of the output increasing sphere (2E) + Geothermal heating air Compressed and heated close to 1200 ° C Heat production by repeating compressed air heat recovery + Accelerating water with superheated steam to increase power generation 3 turbine blade temperature control turbines can be fully automatically processed The same diameter for each paragraph Combined engine for various energy storage cycles that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as the same shape. タービン翼断面(4X)を2倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+出力増大球(2E)を小径として加速タービン駆動する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward by providing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4X) + Accelerating turbine drive with small output sphere (2E) diameter + Geothermal heating air Compressed and heated close to 1200 degrees Heating another air repeatedly heat and compressed heat recovery + Accelerating water vertically downward contact 3 types of turbine blade temperature control turbines with increased power generation The same diameter for each paragraph Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as approximately the same shape. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+出力増大球(2E)を小径として加速タービン駆動する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically vertically by using multiple stages of hydrogravity geothermal turbines with three times the turbine blade cross section (4X) + Accelerating turbine drive with a small output sphere (2E) diameter + Geothermal heating air Compressed and heated close to 1200 degrees Heating another air repeatedly heat and compressed heat recovery + Accelerating water vertically downward contact 3 types of turbine blade temperature control turbines with increased power generation The same diameter for each paragraph Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as approximately the same shape. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+出力増大球(2E)を小径として加速タービン駆動する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward by providing multiple stages of hydrogravity geothermal turbines with four times the turbine blade cross-section (4X) + Accelerating turbine drive with a small output sphere (2E) diameter + Geothermal heating air Compressed and heated close to 1200 degrees Heating another air repeatedly compressing heat recovery + Accelerating water and accelerating water to increase power generation Three types of turbine blade temperature control turbines can be fully automatic processed Same diameter for each paragraph As a combination bolt assembly drive + various energy storage cycle coalescence engine that recovers geothermal heat with a geothermal air heater. タービン翼断面(4X)を5倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 5 times the turbine blade cross section (4X) + full electrification housing prime + pumping device (1J) square corner angle Water is stored and stored in the unit. + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C. Repeated heating and heat recovery is repeated. + Water is accelerated vertically. Various energy storage cycle coalescing engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and diameter of each paragraph so that the turbine can be fully automated. タービン翼断面(4X)を6倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 6 times the turbine blade cross section (4X) + Fully electrified house prime + Square pump outer box angle Water is stored and stored in the part + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and heat recovery + Accelerating water vertically downwards Various energy storage cycle coalescing engines that each have the same diameter and approximately the same shape, and are fitted with assembled bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を7倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 7 times the turbine blade cross section (4X) + full electrified housing prime + water pumping device (1J) is square turbine outer box angle Water is stored and stored in the part + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C and repeating heat recovery by heat and compression + Three types of turbine blades that increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を8倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbine with 8 times turbine blade cross section (4X) + full electrified house prime + square pump outer box angle Water is stored and stored in the part + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C and repeating heat recovery by heat and compression + Three types of turbine blades that increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を9倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 9 times the turbine blade cross section (4X) + full electrified house prime + square pump outer box angle Water is stored and stored in the unit. + Heat generation by compressing geothermal heating air and bringing it close to 1200 ° C. Repeated heating and heat recovery is repeated. + Three types of turbine blade temperature control for increasing power generation by accelerating water and compressing air. Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and the same shape for each paragraph so that the turbine can be fully automated. タービン翼断面(4X)を10倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of 10 times hydrogravity geothermal power generation + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated. + Three types of turbine blade temperature control turbines that increase the amount of accelerated power generation vertically below the water. Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly drive and a geothermal air heater as the same diameter. タービン翼断面(4X)を11倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with 11x turbine blade cross section (4X) + storage battery driven various automobiles primed + water pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and heat recovery is repeated + water is accelerated with combustion gas, and turbines with three types of turbine blade temperature control that increase power generation can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each shape with the same diameter. タービン翼断面(4X)を12倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of 12 times hydrogravity geothermal power generation + storage battery driven various automobiles primed + water pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and heat recovery is repeated. Heat generation is accelerated by contact with combustion gas, and turbines with three types of turbine blade temperature control that increase power generation can be fully automated. Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を13倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 13 times the turbine blade cross section (4X) + accelerating storage battery-powered various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and heat recovery is repeated. Heat generation is accelerated by contact with combustion gas, and turbines with three types of turbine blade temperature control that increase power generation can be fully automated. Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を14倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times hydrogravity geothermal power generation structure and method + storage battery drive various automobiles prime + water pump (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated + water is accelerated with superheated steam, and three types of turbine blade temperature control turbines with increased power generation can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each shape with the same diameter. タービン翼断面(4X)を15倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 15 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を16倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 16 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を17倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 17 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を18倍の水重力地熱発電タービンを多段に設けて水球を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the water ball vertically downward by providing multiple stages of hydrogravity geothermal turbines with 18 times the turbine blade cross section (4X) + making hot water and cold energy primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を19倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 19 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を20倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 20 times hydrogravity geothermal power generation generating equipment blades to make all turbine blades + factory electrification prime + water pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Water can be fully automatically machined with three types of turbine blade temperature control turbines that accelerate acceleration power generation vertically downward Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を21倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Accelerates water with superheated steam and fully generates three types of turbine blade temperature controlled turbines that increase power generation Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as possible with the same diameter and shape as each paragraph. タービン翼断面(4X)を22倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times the hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + water pumping device (1J) is installed at the corner of the square turbine outer box and water is stored up + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Accelerates water with superheated steam and fully generates three types of turbine blade temperature controlled turbines that increase power generation Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as possible with the same diameter and shape as each paragraph. タービン翼断面(4X)を23倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times as many hydrogravity geothermal power generation generating turbine blades + plant electrification prime + water pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Accelerates water with superheated steam and fully generates three types of turbine blade temperature controlled turbines that increase power generation Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as possible with the same diameter and shape as each paragraph. タービン翼断面(4X)を24倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times the hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + water pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Accelerates water with superheated steam and fully generates three types of turbine blade temperature controlled turbines that increase power generation Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as possible with the same diameter and shape as each paragraph. タービン翼断面(4X)を25倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 26 times the turbine blade cross-section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を2倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with double turbine blade cross-section (4X) + making hot and cold use prime + collecting geothermal heat with geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with three times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with four times the turbine blade cross-section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を5倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 5 times the turbine blade cross section (4X) + full electrification housing prime + pumping device (1J) square corner angle Water is stored and stored in the unit. + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C. Repeated heating and heat recovery is repeated. + Water is accelerated vertically. Various energy storage cycle coalescing engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and diameter of each paragraph so that the turbine can be fully automated. タービン翼断面(4X)を6倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 6 times the turbine blade cross section (4X) + Fully electrified house prime + Square pump outer box angle Water is stored and stored in the heat source + Geothermal heating air is compressed and heated close to 1200 ° C, and another air is heated and compressed heat recovery is repeated + Water is accelerated with superheated steam to increase power generation 3 types of turbine blade temperature Various energy storage cycle coalescence engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and almost the same shape for each paragraph to enable fully automatic processing of the managed turbine. タービン翼断面(4X)を7倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 7 times the turbine blade cross section (4X) + full electrified housing prime + water pumping device (1J) is square turbine outer box angle Water is stored and stored in the part + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C and repeating heat recovery by heat and compression + Three types of turbine blades that increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を8倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbine with 8 times turbine blade cross section (4X) + full electrified house prime + square pump outer box angle Water is stored and stored in the part + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C and repeating heat recovery by heat and compression + Three types of turbine blades that increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を9倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 9 times the turbine blade cross section (4X) + full electrified house prime + square pump outer box angle Water is stored and stored in the unit. + Heat generation by compressing geothermal heating air and bringing it close to 1200 ° C. Repeated heating and heat recovery is repeated. + Three types of turbine blade temperature control for increasing power generation by accelerating water and compressing air. Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and the same shape for each paragraph so that the turbine can be fully automated. タービン翼断面(4X)を10倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of 10 times hydrogravity geothermal power generation + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated. + Three types of turbine blade temperature control turbines that increase the amount of accelerated power generation vertically below the water. Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly drive and a geothermal air heater as the same diameter. タービン翼断面(4X)を11倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with 11x turbine blade cross section (4X) + storage battery driven various automobiles primed + water pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated + water is accelerated with superheated steam, and three types of turbine blade temperature control turbines with increased power generation can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each shape with the same diameter. タービン翼断面(4X)を12倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of 12 times hydrogravity geothermal power generation + storage battery driven various automobiles primed + water pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production by compressing heated air, approaching 1200 degrees, heat production that repeats heating and heat recovery, and heat recovery + accelerating rolling contact with alloy water with compressed air, and three kinds of turbine blade temperature control turbines capable of increasing power generation can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を13倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 13 times the turbine blade cross section (4X) + accelerating storage battery-powered various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and heat recovery is repeated. Heat generation is accelerated by contact with combustion gas, and turbines with three types of turbine blade temperature control that increase power generation can be fully automated. Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を14倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times hydrogravity geothermal power generation structure and method + storage battery drive various automobiles prime + water pump (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated + water is accelerated with superheated steam, and three types of turbine blade temperature control turbines with increased power generation can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each shape with the same diameter. タービン翼断面(4X)を15倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 15 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を16倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 16 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を17倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 17 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を18倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 18 times the turbine blade cross-section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を19倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 19 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を20倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 20 times hydrogravity geothermal power generation generating equipment blades to make all turbine blades + factory electrification prime + water pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Water can be fully automatically machined with three types of turbine blade temperature control turbines that accelerate acceleration power generation vertically downward Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を21倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Accelerates water with superheated steam and fully generates three types of turbine blade temperature controlled turbines that increase power generation Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as possible with the same diameter and shape as each paragraph. タービン翼断面(4X)を22倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times the hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + water pumping device (1J) is installed at the corner of the square turbine outer box and water is stored up + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Accelerates water with superheated steam and fully generates three types of turbine blade temperature controlled turbines that increase power generation Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as possible with the same diameter and shape as each paragraph. タービン翼断面(4X)を23倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times as many hydrogravity geothermal power generation generating turbine blades + plant electrification prime + water pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Accelerates water with superheated steam and fully generates three types of turbine blade temperature controlled turbines that increase power generation Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as possible with the same diameter and shape as each paragraph. タービン翼断面(4X)を24倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times the hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + water pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Accelerates water with superheated steam and fully generates three types of turbine blade temperature controlled turbines that increase power generation Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as possible with the same diameter and shape as each paragraph. タービン翼断面(4X)を25倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 26 times the turbine blade cross-section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を2倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with double turbine blade cross-section (4X) + making hot and cold use prime + collecting geothermal heat with geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with three times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with four times the turbine blade cross-section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を5倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 5 times the turbine blade cross section (4X) + full electrification housing prime + pumping device (1J) square corner angle Water is stored and stored in the unit. + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C. Repeated heating and heat recovery is repeated. + Water is accelerated vertically. Various energy storage cycle coalescing engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and diameter of each paragraph so that the turbine can be fully automated. タービン翼断面(4X)を6倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 6 times the turbine blade cross section (4X) + Fully electrified house prime + Square pump outer box angle Water is stored and stored in the heat source + Geothermal heating air is compressed and heated close to 1200 ° C, and another air is heated and compressed heat recovery is repeated + Water is accelerated with superheated steam to increase power generation 3 types of turbine blade temperature Various energy storage cycle coalescence engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and almost the same shape for each paragraph to enable fully automatic processing of the managed turbine. タービン翼断面(4X)を7倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 7 times the turbine blade cross section (4X) + full electrified housing prime + water pumping device (1J) is square turbine outer box angle Water is stored and stored in the part + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C and repeating heat recovery by heat and compression + Three types of turbine blades that increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を8倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbine with 8 times turbine blade cross section (4X) + full electrified house prime + square pump outer box angle Water is stored and stored in the part + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C and repeating heat recovery by heat and compression + Three types of turbine blades that increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を9倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 9 times the turbine blade cross section (4X) + full electrified house prime + square pump outer box angle Water is stored and stored in the unit. + Heat generation by compressing geothermal heating air and bringing it close to 1200 ° C. Repeated heating and heat recovery is repeated. + Three types of turbine blade temperature control for increasing power generation by accelerating water and compressing air. Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and the same shape for each paragraph so that the turbine can be fully automated. タービン翼断面(4X)を10倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of 10 times hydrogravity geothermal power generation + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated. + Three types of turbine blade temperature control turbines that increase the amount of accelerated power generation vertically below the water. Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly drive and a geothermal air heater as the same diameter. タービン翼断面(4X)を11倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with 11x turbine blade cross section (4X) + storage battery driven various automobiles primed + water pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and heat recovery is repeated + water is accelerated with combustion gas, and turbines with three types of turbine blade temperature control that increase power generation can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each shape with the same diameter. タービン翼断面(4X)を12倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+合金水を圧縮空気で加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of 12 times hydrogravity geothermal power generation + storage battery driven various automobiles primed + water pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production by compressing heated air, approaching 1200 degrees, heat production that repeats heating and heat recovery, and heat recovery + accelerating rolling contact with alloy water with compressed air, and three kinds of turbine blade temperature control turbines capable of increasing power generation can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を13倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を燃焼ガスで加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 13 times the turbine blade cross section (4X) + accelerating storage battery-powered various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and heat recovery is repeated. Heat generation is accelerated by contact with combustion gas, and turbines with three types of turbine blade temperature control that increase power generation can be fully automated. Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を14倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times hydrogravity geothermal power generation structure and method + storage battery drive various automobiles prime + water pump (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated + water is accelerated with superheated steam, and three types of turbine blade temperature control turbines with increased power generation can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each shape with the same diameter. タービン翼断面(4X)を15倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 15 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を16倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 16 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を17倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 17 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を18倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 18 times the turbine blade cross-section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を19倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 19 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を20倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 20 times hydrogravity geothermal power generation generating equipment blades to make all turbine blades + factory electrification prime + water pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Water can be fully automatically machined with three types of turbine blade temperature control turbines that accelerate acceleration power generation vertically downward Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を21倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Accelerates water with superheated steam and fully generates three types of turbine blade temperature controlled turbines that increase power generation Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as possible with the same diameter and shape as each paragraph. タービン翼断面(4X)を22倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times the hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + water pumping device (1J) is installed at the corner of the square turbine outer box and water is stored up + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Accelerates water with superheated steam and fully generates three types of turbine blade temperature controlled turbines that increase power generation Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as possible with the same diameter and shape as each paragraph. タービン翼断面(4X)を23倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水合金を加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times as many hydrogravity geothermal power generation generating turbine blades + plant electrification prime + water pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 ° C and repeats heat and compression heat recovery + Accelerates rolling contact with water alloy and enables three types of turbine blades with increased power generation to be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を24倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times the hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + water pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats recovery of heat by compressing and recovering heat + Fully automatic processing of turbines with three types of turbine blade temperature control that increase water generation by accelerating water and compressing air Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を25倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 26 times the turbine blade cross-section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を5倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 5 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を6倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 6 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を7倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with seven times the turbine blade cross section (4X) + making hot and cold use primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を8倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal power generation turbines with 8 times the turbine blade cross section (4X) + Fully electrified house prime + Pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal air, heat production close to 1200 degrees and repeated heat and compression heat recovery + Three types of turbine blades that accelerate water generation vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を9倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with nine times the turbine blade cross section (4X) + full electrification house prime + water pumping device (1J) is a square turbine 3 types of heat production by increasing the amount of power generation by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat compression heat recovery + Accelerating the water with superheated steam Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を10倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine with a turbine blade cross-section (4X) in multiple stages, and making the whole house electrified + a pumping device (1J) a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を11倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine by providing multiple stages of 11-times hydrogravity geothermal turbines with a turbine blade cross section (4X) + full electrification house prime + water pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を12倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross section (4X) + full electrification house prime + pumping device (1J) is a square turbine 3 types of turbines that increase the power generation amount by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat recovery by heating and compressing heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を13倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 13 times the turbine blade cross section (4X) + accelerating storage battery-powered various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated. + Three types of turbine blade temperature control turbines that increase the amount of accelerated power generation vertically below the water. Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly drive and a geothermal air heater as the same diameter. タービン翼断面(4X)を14倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times hydrogravity geothermal power generation structure and method + storage battery drive various automobiles prime + water pump (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated + water is accelerated with superheated steam, and three types of turbine blade temperature control turbines with increased power generation can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each shape with the same diameter. タービン翼断面(4X)を15倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of 15 times hydrogravity geothermal power generation + storage battery powered various automobiles primed + pumping device (1J) installed at corner corner of rectangular turbine outer casing + water storage + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を16倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 16 times + storage battery-powered various automobiles are primed + a water pump (1J) is installed at the corner of the square turbine outer box to save and save water Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を17倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17-fold hydrogravity geothermal power generation structure and method + storage battery driven various automobiles prime + water pump (1J) is installed at the corner of square turbine outer box + water is stored up + geothermal Heat production is compressed and heated close to 1200 ° C, and another air is heated and compressed heat recovery is repeated + Compressed water is accelerated to increase the amount of power generated by three types of turbine blade temperature control turbines can be fully automated Combined engine with various energy storage cycles that collects geothermal heat with a mating bolt assembly drive and a geothermal air heater with the same diameter. タービン翼断面(4X)を18倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 18 times the turbine blade cross-section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を19倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 19 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 20 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を23倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times as many hydrogravity geothermal power generation generating turbine blades + plant electrification prime + water pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Water can be fully automatically machined with three types of turbine blade temperature control turbines that accelerate acceleration power generation vertically downward Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を24倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times the hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + water pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Accelerates water with superheated steam and fully generates three types of turbine blade temperature controlled turbines that increase power generation Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as possible with the same diameter and shape as each paragraph. タービン翼断面(4X)を25倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times as many hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を2倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) with double hydrogravity geothermal power generation turbine blade generation method + plant electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を3倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 3 times the hydrogravity geothermal power generation generating turbine blade equipment method + factory electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats recovery of heat by compressing and recovering heat + Fully automatic processing of turbines with three types of turbine blade temperature control that increase water generation by accelerating water and compressing air Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with four times the turbine blade cross-section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を5倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 5 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を6倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 6 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を7倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with seven times the turbine blade cross section (4X) + making hot and cold use primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を8倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 8 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を9倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat-retaining turbine with a turbine blade cross section (4X) 9 times in multiple stages + a fully electrified house prime + a pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal air, heat production close to 1200 degrees and repeated heat and compression heat recovery + Three types of turbine blades that accelerate water generation vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を10倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine with a turbine blade cross-section (4X) in multiple stages, and making the whole house electrified + a pumping device (1J) a square turbine 3 types of heat production by increasing the amount of power generation by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat compression heat recovery + Accelerating the water with superheated steam Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を11倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of 11-times hydrogravity geothermal turbines with a turbine blade cross section (4X) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を12倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross section (4X) + Fully electrified house prime + Pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を13倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross section (4X) + full electrification house prime + water pumping device (1J) is a square turbine 3 types of turbines that increase the power generation amount by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat recovery by heating and compressing heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を14倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times hydrogravity geothermal power generation structure and method + storage battery drive various automobiles prime + water pump (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated. + Three types of turbine blade temperature control turbines that increase the amount of accelerated power generation vertically below the water. Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly drive and a geothermal air heater as the same diameter. タービン翼断面(4X)を15倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of 15 times hydrogravity geothermal power generation + storage battery powered various automobiles primed + pumping device (1J) installed at corner corner of rectangular turbine outer casing + water storage + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated + water is accelerated with superheated steam, and three types of turbine blade temperature control turbines with increased power generation can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each shape with the same diameter. タービン翼断面(4X)を16倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 16 times + storage battery-powered various automobiles are primed + a water pump (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を17倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17-fold hydrogravity geothermal power generation structure and method + storage battery driven various automobiles prime + water pump (1J) is installed at the corner of square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を18倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18-fold hydrogravity geothermal power generation structure and method + storage battery powered various automobiles primed + water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed and heated close to 1200 ° C, and another air is heated and compressed heat recovery is repeated + Compressed water is accelerated to increase the amount of power generated by three types of turbine blade temperature control turbines can be fully automated Combined engine with various energy storage cycles that collects geothermal heat with a mating bolt assembly drive and a geothermal air heater with the same diameter. タービン翼断面(4X)を19倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 19 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 20 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を24倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times the hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + water pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Water can be fully automatically machined with three types of turbine blade temperature control turbines that accelerate acceleration power generation vertically downward Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を25倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times as many hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Accelerates water with superheated steam and fully generates three types of turbine blade temperature controlled turbines that increase power generation Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as possible with the same diameter and shape as each paragraph. タービン翼断面(4X)を2倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) with double hydrogravity geothermal power generation turbine blade generation method + plant electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を3倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 3 times the hydrogravity geothermal power generation generating turbine blade equipment method + factory electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を4倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 4 times the hydrogravity geothermal power generation generating turbine blade method + plant electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats recovery of heat by compressing and recovering heat + Fully automatic processing of turbines with three types of turbine blade temperature control that increase water generation by accelerating water and compressing air Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を5倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 5 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を6倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 6 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を7倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with seven times the turbine blade cross section (4X) + making hot and cold use primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を8倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 8 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を9倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 9 times the turbine blade cross section (4X) + making use of hot and cold heat + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を10倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 10 times + full-scale electrified house prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal air, heat production close to 1200 degrees and repeated heat and compression heat recovery + Three types of turbine blades that accelerate water generation vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を11倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine by providing multiple stages of 11-times hydrogravity geothermal turbines with a turbine blade cross section (4X) + full electrification house prime + water pumping device (1J) is a square turbine 3 types of heat production by increasing the amount of power generation by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat compression heat recovery + Accelerating the water with superheated steam Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を12倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross section (4X) + Fully electrified house prime + Pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を13倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal power generation turbines with 13 times the turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を14倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat-retaining turbine with a multi-stage hydrogravity geothermal turbine with 14 times the turbine blade cross-section (4X) + full-scale electrified house prime + a pumping device (1J) is a square turbine 3 types of turbines that increase the power generation amount by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat recovery by heating and compressing heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を15倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of 15 times hydrogravity geothermal power generation + storage battery powered various automobiles primed + pumping device (1J) installed at corner corner of rectangular turbine outer casing + water storage + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated. + Three types of turbine blade temperature control turbines that increase the amount of accelerated power generation vertically below the water. Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly drive and a geothermal air heater as the same diameter. タービン翼断面(4X)を16倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 16 times + storage battery-powered various automobiles are primed + a water pump (1J) is installed at the corner of the square turbine outer box to save and save water Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated + water is accelerated with superheated steam, and three types of turbine blade temperature control turbines with increased power generation can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each shape with the same diameter. タービン翼断面(4X)を17倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17-fold hydrogravity geothermal power generation structure and method + storage battery driven various automobiles prime + water pump (1J) is installed at the corner of square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を18倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18-fold hydrogravity geothermal power generation structure and method + storage battery powered various automobiles primed + water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を19倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 19 times hydrogravity geothermal power generation structure and method + storage battery drive various automobiles prime + water pump (1J) is installed at the corner of square turbine outer box + water is stored up + geothermal Heat production is compressed and heated close to 1200 ° C, and another air is heated and compressed heat recovery is repeated + Compressed water is accelerated to increase the amount of power generated by three types of turbine blade temperature control turbines can be fully automated Combined engine with various energy storage cycles that collects geothermal heat with a mating bolt assembly drive and a geothermal air heater with the same diameter. タービン翼断面(4X)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 20 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4X) + making use of hot and cold heat + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を25倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times as many hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Water can be fully automatically machined with three types of turbine blade temperature control turbines that accelerate acceleration power generation vertically downward Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を2倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) with double hydrogravity geothermal power generation turbine blade generation method + plant electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Accelerates water with superheated steam and fully generates three types of turbine blade temperature controlled turbines that increase power generation Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as possible with the same diameter and shape as each paragraph. タービン翼断面(4X)を3倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 3 times the hydrogravity geothermal power generation generating turbine blade equipment method + factory electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を4倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 4 times the hydrogravity geothermal power generation generating turbine blade method + plant electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を5倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats recovery of heat by compressing and recovering heat + Fully automatic processing of turbines with three types of turbine blade temperature control that increase water generation by accelerating water and compressing air Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を6倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 6 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を7倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with seven times the turbine blade cross section (4X) + making hot and cold use primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を8倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 8 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を9倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 9 times the turbine blade cross section (4X) + making use of hot and cold heat + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically and vertically by using multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) 10 times larger + Making hot and cold energy primed + Collecting geothermal heat with a geothermal air heater + Pumping equipment (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を11倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine by providing multiple stages of 11-times hydrogravity geothermal turbines with a turbine blade cross section (4X) + full electrification house prime + water pumping device (1J) square Installed in the corner of the outer box to save and store water + Compressed geothermal air, heat production close to 1200 degrees and repeated heat and compression heat recovery + Three types of turbine blades that accelerate water generation vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を12倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross section (4X) + Fully electrified house prime + Pumping device (1J) is a square turbine 3 types of heat production by increasing the amount of power generation by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat compression heat recovery + Accelerating the water with superheated steam Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を13倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross section (4X) + full electrification house prime + water pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を14倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 14 times the turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を15倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing a multi-stage hydrogravity geothermal turbine with 15 times the turbine blade cross section (4X) + full electrification housing prime + pumping device (1J) is a square turbine 3 types of turbines that increase the power generation amount by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat recovery by heating and compressing heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を16倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 16 times + storage battery-powered various automobiles are primed + a water pump (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated. + Three types of turbine blade temperature control turbines that increase the amount of accelerated power generation vertically below the water. Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly drive and a geothermal air heater as the same diameter. タービン翼断面(4X)を17倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17-fold hydrogravity geothermal power generation structure and method + storage battery driven various automobiles prime + water pump (1J) is installed at the corner of square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated + water is accelerated with superheated steam, and three types of turbine blade temperature control turbines with increased power generation can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each shape with the same diameter. タービン翼断面(4X)を18倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18-fold hydrogravity geothermal power generation structure and method + storage battery powered various automobiles primed + water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を19倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 19 times hydrogravity geothermal power generation structure and method + storage battery drive various automobiles prime + water pump (1J) is installed at the corner of square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を20倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of 20 times hydrogravity geothermal power generation + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed and heated close to 1200 ° C, and another air is heated and compressed heat recovery is repeated + Compressed water is accelerated to increase the amount of power generated by three types of turbine blade temperature control turbines can be fully automated Combined engine with various energy storage cycles that collects geothermal heat with a mating bolt assembly drive and a geothermal air heater with the same diameter. タービン翼断面(4X)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4X) + making use of hot and cold heat + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を25倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を2倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) with double hydrogravity geothermal power generation turbine blade generation method + plant electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Water can be fully automatically machined with three types of turbine blade temperature control turbines that accelerate acceleration power generation vertically downward Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を3倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 3 times the hydrogravity geothermal power generation generating turbine blade equipment method + factory electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Accelerates water with superheated steam and fully generates three types of turbine blade temperature controlled turbines that increase power generation Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as possible with the same diameter and shape as each paragraph. タービン翼断面(4X)を4倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 4 times the hydrogravity geothermal power generation generating turbine blade method + plant electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を5倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を6倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 6 times the hydrogravity geothermal power generation generating turbine blade equipment method + factory electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats recovery of heat by compressing and recovering heat + Fully automatic processing of turbines with three types of turbine blade temperature control that increase water generation by accelerating water and compressing air Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を7倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with seven times the turbine blade cross section (4X) + making hot and cold use primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を8倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 8 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を9倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 9 times the turbine blade cross section (4X) + making use of hot and cold heat + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically and vertically by using multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) 10 times larger + Making hot and cold energy primed + Collecting geothermal heat with a geothermal air heater + Pumping equipment (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を12倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross section (4X) + Fully electrified house prime + Pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal air, heat production close to 1200 degrees and repeated heat and compression heat recovery + Three types of turbine blades that accelerate water generation vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を13倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross section (4X) + full electrification house prime + water pumping device (1J) is a square turbine 3 types of heat production by increasing the amount of power generation by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat compression heat recovery + Accelerating the water with superheated steam Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を14倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 14 times the turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を15倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing a multi-stage hydrogravity geothermal turbine with 15 times the turbine blade cross section (4X) + full electrification housing prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を16倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 16 times the turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is a square turbine 3 types of turbines that increase the power generation amount by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat recovery by heating and compressing heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を17倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17-fold hydrogravity geothermal power generation structure and method + storage battery driven various automobiles prime + water pump (1J) is installed at the corner of square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated. + Three types of turbine blade temperature control turbines that increase the amount of accelerated power generation vertically below the water. Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly drive and a geothermal air heater as the same diameter. タービン翼断面(4X)を18倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18-fold hydrogravity geothermal power generation structure and method + storage battery powered various automobiles primed + water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated + water is accelerated with superheated steam, and three types of turbine blade temperature control turbines with increased power generation can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each shape with the same diameter. タービン翼断面(4X)を19倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 19 times hydrogravity geothermal power generation structure and method + storage battery drive various automobiles prime + water pump (1J) is installed at the corner of square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を20倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of 20 times hydrogravity geothermal power generation + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を21倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of 21 times hydrogravity geothermal power generation + storage battery driven various automobiles primed + pumping device (1J) installed at corner corner of square type turbine to save and save water + geothermal Heat production is compressed and heated close to 1200 ° C, and another air is heated and compressed heat recovery is repeated + Compressed water is accelerated to increase the amount of power generated by three types of turbine blade temperature control turbines can be fully automated Combined engine with various energy storage cycles that collects geothermal heat with a mating bolt assembly drive and a geothermal air heater with the same diameter. タービン翼断面(4X)を22倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Configuration and method for accelerating 22 times the hydrogravity generated water vertically down the turbine blade cross-section (4X) + + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water + Geothermal heating air Compressed and heated close to 1200 degrees Heating another air Repeated compression heat recovery + Water vertically accelerating power generation 3 types of turbine blade temperature control turbines can be fully automatically processed The same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater. タービン翼断面(4X)を23倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating 23 times the hydrogravity power generated vertically by the turbine blade cross section (4X) + + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store the water + Geothermal heating air Compressed and heated close to 1200 ° C Heat production by repeating compressed air heat recovery + Accelerating water with superheated steam to increase power generation 3 turbine blade temperature control turbines can be fully automatically processed The same diameter for each paragraph Combined engine for various energy storage cycles that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as the same shape. タービン翼断面(4X)を24倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating 24 times the hydrogravity generated water vertically down the turbine blade cross section (4X) + + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save the water + Geothermal heating air Compressed and heated close to 1200 degrees Heating another air repeatedly heat and compressed heat recovery + Accelerating water vertically downward contact 3 types of turbine blade temperature control turbines with increased power generation The same diameter for each paragraph Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as approximately the same shape. タービン翼断面(4X)を25倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating 25 times the hydrogravity generated water vertically down the turbine blade cross section (4X) + + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store the water + Geothermal heating air Compressed and heated close to 1200 degrees Heating another air repeatedly heat and compressed heat recovery + Accelerating water vertically downward contact 3 types of turbine blade temperature control turbines with increased power generation The same diameter for each paragraph Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as approximately the same shape. タービン翼断面(4X)を2倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the hydrogravity generated water twice vertically on the turbine blade cross section (4X) + + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store the water + Geothermal heating air Compressed and heated close to 1200 degrees Heating another air repeatedly compressing heat recovery + Accelerating water and accelerating water to increase power generation Three types of turbine blade temperature control turbines can be fully automatic processed Same diameter for each paragraph As a combination bolt assembly drive + various energy storage cycle coalescence engine that recovers geothermal heat with a geothermal air heater. タービン翼断面(4X)を3倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the hydrogravity generated water 3 times lower than the turbine blade cross section (4X) + + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save the water + Geothermal heating air Compressed and heated close to 1200 degrees Heating another air Repeated compression heat recovery + Water vertically accelerating power generation 3 types of turbine blade temperature control turbines can be fully automatically processed The same diameter for each paragraph Combined engine with various energy storage cycles that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater. タービン翼断面(4X)を4倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Configuration and method of accelerating water gravity power generation water 4 times lower in the turbine blade cross section (4X) + + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Geothermal heating air Compressed and heated close to 1200 ° C Heat production by repeating compressed air heat recovery + Accelerating water with superheated steam to increase power generation 3 turbine blade temperature control turbines can be fully automatically processed The same diameter for each paragraph Combined engine for various energy storage cycles that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as the same shape. タービン翼断面(4X)を5倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating 5 times the hydrogravity generated water vertically down the turbine blade cross section (4X) + + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save the water + Geothermal heating air Compressed and heated close to 1200 degrees Heating another air repeatedly heat and compressed heat recovery + Accelerating water vertically downward contact 3 types of turbine blade temperature control turbines with increased power generation The same diameter for each paragraph Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as approximately the same shape. タービン翼断面(4X)を6倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating 6 times the hydrogravity generated water vertically down the turbine blade cross section (4X) + + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store the water + Geothermal heating air Compressed and heated close to 1200 degrees Heating another air repeatedly heat and compressed heat recovery + Accelerating water vertically downward contact 3 types of turbine blade temperature control turbines with increased power generation The same diameter for each paragraph Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as approximately the same shape. タービン翼断面(4X)を7倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the hydrogravity generated water 7 times lower than the turbine blade cross section (4X) + + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store the water + Geothermal heating air Compressed and heated close to 1200 degrees Heating another air repeatedly compressing heat recovery + Accelerating water and accelerating water to increase power generation Three types of turbine blade temperature control turbines can be fully automatic processed Same diameter for each paragraph As a combination bolt assembly drive + various energy storage cycle coalescence engine that recovers geothermal heat with a geothermal air heater. タービン翼断面(4X)を8倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 8 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, heated to 1200 degrees and heated to repeatedly heat and compress heat recovery + Three types of turbine blade temperature to accelerate water generation vertically downward Various energy storage cycle coalescence engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and almost the same shape for each paragraph to enable fully automatic processing of the managed turbine. タービン翼断面(4X)を9倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 9 times the turbine blade cross section (4X) + storage battery-powered various ships primed + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Accelerating water with superheated steam to increase power generation 3 types of turbines Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 10 times + accelerating water vertically + accelerating the storage battery drive + pumping device (1J) outside square turbine 3 types of heat production by compressing the geothermal heating air and bringing it closer to 1200 degrees, repeating the heat and compression heat recovery, and increasing the amount of power generation by accelerating and rolling the water vertically downward and contacting Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing 11-fold hydrogravity geothermal turbines with 11 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine 3 types of heat production by compressing the geothermal heating air and bringing it closer to 1200 degrees, repeating the heat and compression heat recovery, and increasing the amount of power generation by accelerating and rolling the water vertically downward and contacting Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross section (4X) + accelerating water storage + various types of vessels driven + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heat recovery by heating and compression + Three types of turbine blades to increase power generation by accelerating water and compressed air Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, heated to 1200 degrees and heated to repeatedly heat and compress heat recovery + Three types of turbine blade temperature to accelerate water generation vertically downward Various energy storage cycle coalescence engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and almost the same shape for each paragraph to enable fully automatic processing of the managed turbine. タービン翼断面(4X)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 14 times the turbine blade cross-section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, heated to 1200 degrees and heated to repeatedly heat and compress heat recovery + Three types of turbine blade temperature to accelerate water generation vertically downward Various energy storage cycle coalescence engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and almost the same shape for each paragraph to enable fully automatic processing of the managed turbine. タービン翼断面(4X)を15倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 15 times + accelerating water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, heated to 1200 degrees and heated to repeatedly heat and compress heat recovery + Three types of turbine blade temperature to accelerate water generation vertically downward Various energy storage cycle coalescence engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and almost the same shape for each paragraph to enable fully automatic processing of the managed turbine. タービン翼断面(4X)を16倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 16 times + accelerating the water vertically + accelerating storage battery-powered vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, heated to 1200 degrees and heated to repeatedly heat and compress heat recovery + Three types of turbine blade temperature to accelerate water generation vertically downward Various energy storage cycle coalescence engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and almost the same shape for each paragraph to enable fully automatic processing of the managed turbine. タービン翼断面(4X)を17倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 17 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, heated to 1200 degrees and heated to repeatedly heat and compress heat recovery + Three types of turbine blade temperature to accelerate water generation vertically downward Various energy storage cycle coalescence engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and almost the same shape for each paragraph to enable fully automatic processing of the managed turbine. タービン翼断面(4X)を18倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 18 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Accelerating water with superheated steam to increase power generation 3 types of turbines Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を19倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19-times hydrogravity geothermal turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various ships prime + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Accelerating water with superheated steam to increase power generation 3 types of turbines Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 20 times + accelerating water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Accelerating water with superheated steam to increase power generation 3 types of turbines Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 21 times + accelerating water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Accelerating water with superheated steam to increase power generation 3 types of turbines Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Accelerating water with superheated steam to increase power generation 3 types of turbines Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 23 times + accelerating water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine 3 types of heat production by compressing the geothermal heating air and bringing it closer to 1200 degrees, repeating the heat and compression heat recovery, and increasing the amount of power generation by accelerating and rolling the water vertically downward and contacting Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross-section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine 3 types of heat production by compressing the geothermal heating air and bringing it closer to 1200 degrees, repeating the heat and compression heat recovery, and increasing the amount of power generation by accelerating and rolling the water vertically downward and contacting Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を25倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 25 times + accelerating water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine 3 types of heat production by compressing the geothermal heating air and bringing it closer to 1200 degrees, repeating the heat and compression heat recovery, and increasing the amount of power generation by accelerating and rolling the water vertically downward and contacting Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を2倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4X) + accelerating the storage battery-powered various ships + pumping device (1J) outside square turbine 3 types of heat production by compressing the geothermal heating air and bringing it closer to 1200 degrees, repeating the heat and compression heat recovery, and increasing the amount of power generation by accelerating and rolling the water vertically downward and contacting Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with three times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine 3 types of heat production by compressing the geothermal heating air and bringing it closer to 1200 degrees, repeating the heat and compression heat recovery, and increasing the amount of power generation by accelerating and rolling the water vertically downward and contacting Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with four times the turbine blade cross-section (4X) + storage battery-powered various vessels primed + pumping device (1J) outside square turbine 3 types of heat production by compressing the geothermal heating air and bringing it closer to 1200 degrees, repeating the heat and compression heat recovery, and increasing the amount of power generation by accelerating and rolling the water vertically downward and contacting Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を5倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 5 times the turbine blade cross section (4X) + accelerating the storage battery drive + pumping equipment (1J) outside the square turbine 3 types of heat production by compressing the geothermal heating air and bringing it closer to 1200 degrees, repeating the heat and compression heat recovery, and increasing the amount of power generation by accelerating and rolling the water vertically downward and contacting Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を6倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 6 times the turbine blade cross section (4X) + accelerating the water storage + various types of vessels driven + pumping device (1J) outside square turbine 3 types of heat production by compressing the geothermal heating air and bringing it closer to 1200 degrees, repeating the heat and compression heat recovery, and increasing the amount of power generation by accelerating and rolling the water vertically downward and contacting Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を7倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 7 times the turbine blade cross section (4X) + accelerating the storage battery drive + pumping equipment (1J) outside the square turbine 3 types of heat production by compressing the geothermal heating air and bringing it closer to 1200 degrees, repeating the heat and compression heat recovery, and increasing the amount of power generation by accelerating and rolling the water vertically downward and contacting Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を8倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 8 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine 3 types of heat production by compressing the geothermal heating air and bringing it closer to 1200 degrees, repeating the heat and compression heat recovery, and increasing the amount of power generation by accelerating and rolling the water vertically downward and contacting Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を9倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 9 times the turbine blade cross section (4X) + storage battery-powered various ships primed + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heat recovery by heating and compression + Three types of turbine blades to increase power generation by accelerating water and compressed air Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 10 times + accelerating water vertically + accelerating the storage battery drive + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heat recovery by heating and compression + Three types of turbine blades to increase power generation by accelerating water and compressed air Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing 11-fold hydrogravity geothermal turbines with 11 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heat recovery by heating and compression + Three types of turbine blades to increase power generation by accelerating water and compressed air Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross section (4X) + accelerating water storage + various types of vessels driven + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heat recovery by heating and compression + Three types of turbine blades to increase power generation by accelerating water and compressed air Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heat recovery by heating and compression + Three types of turbine blades to increase power generation by accelerating water and compressed air Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を多段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 14 times the turbine blade cross-section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed at the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Multiple stages of 3 assembly and drive turbines for each blade group Various energy storage cycle coalescence engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を15倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を多段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 15 times + accelerating water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine Installed at the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Multiple stages of 3 assembly and drive turbines for each blade group Various energy storage cycle coalescence engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を16倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を多段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 16 times + accelerating the water vertically + accelerating storage battery-powered vessels + pumping device (1J) outside square turbine Installed at the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Multiple stages of 3 assembly and drive turbines for each blade group Various energy storage cycle coalescence engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を17倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を多段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 17 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed at the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Multiple stages of 3 assembly and drive turbines for each blade group Various energy storage cycle coalescence engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を18倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を多段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 18 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed at the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Multiple stages of 3 assembly and drive turbines for each blade group Various energy storage cycle coalescence engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を19倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差を可能な限り上昇+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 19 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) Raise the head as much as possible + Install a pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal air and bring it closer to 1200 degrees to heat the compressed air Heat production with repeated recovery + 3 types of turbine blade temperature control turbines that increase the amount of accelerated power generation vertically downward Water can be fully automatically machined With the same diameter and shape of each paragraph, assembly bolt assembly drive + geothermal air heater Various energy storage cycle coalescing engines to be recovered. タービン翼断面(4X)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差を可能な限り上昇+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 20 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) Raise the head as much as possible + Install a pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal air and bring it closer to 1200 degrees to heat the compressed air Heat production with repeated recovery + Accelerating water with superheated steam to increase the amount of power generation Three types of turbine blade temperature controlled turbines can be fully automatically machined With the same diameter and shape of each paragraph, assembly bolt assembly drive + geothermal air heater Various energy conservation cycle coalescence engine that recovers geothermal heat. タービン翼断面(4X)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差を可能な限り上昇+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) Raise the head as much as possible + Install a pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal air and bring it closer to 1200 degrees to heat the compressed air Heat production with repeated recovery + Accelerated rolling contact with water vertically down 3 types of turbine blade temperature control turbines that increase power generation Fully automatic processing is possible. Various energy conservation cycle coalescence engine that collects geothermal heat. タービン翼断面(4X)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差を可能な限り上昇+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) Raise the head as much as possible + Install a pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal air and bring it closer to 1200 degrees to heat the compressed air Heat production with repeated recovery + Accelerated rolling contact with water vertically down 3 types of turbine blade temperature control turbines that increase power generation Fully automatic processing is possible. Various energy conservation cycle coalescence engine that collects geothermal heat. タービン翼断面(4X)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差を可能な限り上昇+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) Raise the head as much as possible + Install a pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal air and bring it closer to 1200 degrees to heat the compressed air Heat production with repeated recovery + Accelerating compressed air with water and increasing power generation amount 3 types of turbine blade temperature controlled turbines can be fully automatically machined with the same diameter and shape of each stage assembling bolt assembly drive + geothermal air heater Various energy storage cycle coalescence engine that collects. タービン翼断面(4X)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4X) + making use of hot and cold heat + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を25倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を2倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with double turbine blade cross-section (4X) + making hot and cold use prime + collecting geothermal heat with geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with three times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with four times the turbine blade cross-section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を5倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Water can be fully automatically machined with three types of turbine blade temperature control turbines that accelerate acceleration power generation vertically downward Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を6倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 6 times the hydrogravity geothermal power generation generating turbine blade equipment method + factory electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Accelerates water with superheated steam and fully generates three types of turbine blade temperature controlled turbines that increase power generation Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as possible with the same diameter and shape as each paragraph. タービン翼断面(4X)を7倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is raised and stored + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を8倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, which can be machined in the same diameter and shape as each paragraph. タービン翼断面(4X)を9倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats recovery of heat by compressing and recovering heat + Fully automatic processing of turbines with three types of turbine blade temperature control that increase water generation by accelerating water and compressing air Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically and vertically by using multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) 10 times larger + Making hot and cold energy primed + Collecting geothermal heat with a geothermal air heater + Pumping equipment (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 14 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を15倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing a multi-stage hydrogravity geothermal turbine with 15 times the turbine blade cross section (4X) + full electrification housing prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal air, heat production close to 1200 degrees and repeated heat and compression heat recovery + Three types of turbine blades that accelerate water generation vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を16倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 16 times the turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is a square turbine 3 types of heat production by increasing the amount of power generation by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat compression heat recovery + Accelerating the water with superheated steam Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を17倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 17 times the turbine blade cross section (4X) + full electrification house prime + water pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を18倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a thermal insulation turbine by providing multiple stages of hydrogravity geothermal power generation turbines with 18 times the turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を19倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat insulation turbine by providing multiple stages of hydrogravity geothermal power generation turbines with 19 times the turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is a square turbine 3 types of turbines that increase the power generation amount by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat recovery by heating and compressing heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を20倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of 20 times hydrogravity geothermal power generation + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated. + Three types of turbine blade temperature control turbines that increase the amount of accelerated power generation vertically below the water. Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly drive and a geothermal air heater as the same diameter. タービン翼断面(4X)を21倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of 21 times hydrogravity geothermal power generation + storage battery driven various automobiles primed + pumping device (1J) installed at corner corner of square type turbine to save and save water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated + water is accelerated with superheated steam, and three types of turbine blade temperature control turbines with increased power generation can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each shape with the same diameter. タービン翼断面(4X)を22倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of 22 times hydrogravity geothermal power generation + storage battery driven various automobiles primed + water pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を23倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross-section (4X) of 23 times + storage battery-powered various automobiles are primed + a water pump (1J) is installed at the corner of the square turbine outer box + water is stored and stored + Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を24倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 24 times + storage battery driven various automobiles primed + a pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed and heated close to 1200 ° C, and another air is heated and compressed heat recovery is repeated + Compressed water is accelerated to increase the amount of power generated by three types of turbine blade temperature control turbines can be fully automated Combined engine with various energy storage cycles that collects geothermal heat with a mating bolt assembly drive and a geothermal air heater with the same diameter. タービン翼断面(4X)を25倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4X) + + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Water can be fully automatically machined with three types of turbine blade temperature control turbines that accelerate acceleration power generation vertically downward Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を2倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with twice the turbine blade cross section (4X) + + pumping device (1J) is installed at the corner of the square turbine outer box to store and ascend the water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Accelerates water with superheated steam and fully generates three types of turbine blade temperature controlled turbines that increase power generation Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as possible with the same diameter and shape as each paragraph. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the water vertically by providing multiple stages of hydrogravity geothermal turbines with three times the turbine blade cross-section (4X) + + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water ascending + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 4 times the turbine blade cross section (4X) + + A pumping device (1J) is installed at the corner of the square turbine outer box to preserve the water + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を5倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 5 times the turbine blade cross section (4X) + + Pumping equipment (1J) is installed at the corner of the square turbine outer box and the water is raised and stored + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats recovery of heat by compressing and recovering heat + Fully automatic processing of turbines with three types of turbine blade temperature control that increase water generation by accelerating water and compressing air Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を6倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 6 times the hydrogravity geothermal power generation generating turbine blade equipment method + factory electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Water can be fully automatically machined with three types of turbine blade temperature control turbines that accelerate acceleration power generation vertically downward Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を7倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is raised and stored + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Accelerates water with superheated steam and fully generates three types of turbine blade temperature controlled turbines that increase power generation Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as possible with the same diameter and shape as each paragraph. タービン翼断面(4X)を8倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, which can be machined in the same diameter and shape as each paragraph. タービン翼断面(4X)を9倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を10倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 10 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats recovery of heat by compressing and recovering heat + Fully automatic processing of turbines with three types of turbine blade temperature control that increase water generation by accelerating water and compressing air Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 14 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を15倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 15 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を16倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 16 times the turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal air, heat production close to 1200 degrees and repeated heat and compression heat recovery + Three types of turbine blades that accelerate water generation vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を17倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 17 times the turbine blade cross section (4X) + full electrification house prime + water pumping device (1J) is a square turbine 3 types of heat production by increasing the amount of power generation by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat compression heat recovery + Accelerating the water with superheated steam Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を18倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a thermal insulation turbine by providing multiple stages of hydrogravity geothermal power generation turbines with 18 times the turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を19倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 19 times the turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat recovery by heat and compression + Increase in power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage to enable fully automatic processing of turbines with different turbine blade temperature control. タービン翼断面(4X)を20倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 20 times + a fully electrified house prime + a pumping device (1J) is a square turbine 3 types of turbines that increase the power generation amount by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat recovery by heating and compressing heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を21倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of 21 times hydrogravity geothermal power generation + storage battery driven various automobiles primed + pumping device (1J) installed at corner corner of square type turbine to save and save water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated. + Three types of turbine blade temperature control turbines that increase the amount of accelerated power generation vertically below the water. Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly drive and a geothermal air heater as the same diameter. タービン翼断面(4X)を22倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of 22 times hydrogravity geothermal power generation + storage battery driven various automobiles primed + water pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated + water is accelerated with superheated steam, and three types of turbine blade temperature control turbines with increased power generation can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each shape with the same diameter. タービン翼断面(4X)を23倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross-section (4X) of 23 times + storage battery-powered various automobiles are primed + a water pump (1J) is installed at the corner of the square turbine outer box + water is stored and stored + Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を24倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 24 times + storage battery driven various automobiles primed + a pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を25倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of hydrogravity geothermal power generation of 25 times + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed and heated close to 1200 ° C, and another air is heated and compressed heat recovery is repeated + Compressed water is accelerated to increase the amount of power generated by three types of turbine blade temperature control turbines can be fully automated Combined engine with various energy storage cycles that collects geothermal heat with a mating bolt assembly drive and a geothermal air heater with the same diameter. タービン翼断面(4X)を2倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with double turbine blade cross-section (4X) + making hot and cold use prime + collecting geothermal heat with geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with three times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with four times the turbine blade cross-section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を5倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 5 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を6倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 6 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating water with compressed air Three types of turbine blades with increased power generation Temperature control turbines with various energy storage cycle coalescing engines that use geometries to recover geothermal heat with a mating bolt assembly drive and geothermal air heater, with the same diameter and shape of each paragraph so that they can be fully automated. タービン翼断面(4X)を7倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is raised and stored + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Water can be fully automatically machined with three types of turbine blade temperature control turbines that accelerate acceleration power generation vertically downward Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を8倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Accelerates water with superheated steam and fully generates three types of turbine blade temperature controlled turbines that increase power generation Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as possible with the same diameter and shape as each paragraph. タービン翼断面(4X)を9倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を10倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 10 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を11倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times the hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box and the water is raised and stored + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats recovery of heat by compressing and recovering heat + Fully automatic processing of turbines with three types of turbine blade temperature control that increase water generation by accelerating water and compressing air Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 14 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を15倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 15 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を16倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 16 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を17倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 17 times the turbine blade cross section (4X) + full electrification house prime + water pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal air, heat production close to 1200 degrees and repeated heat and compression heat recovery + Three types of turbine blades that accelerate water generation vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を18倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a thermal insulation turbine by providing multiple stages of hydrogravity geothermal power generation turbines with 18 times the turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is a square turbine 3 types of heat production by increasing the amount of power generation by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat compression heat recovery + Accelerating the water with superheated steam Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を19倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat insulation turbine by providing multiple stages of hydrogravity geothermal power generation turbines with 19 times the turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を20倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 20 times + a fully electrified house prime + a pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を21倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is a square turbine 3 types of turbines that increase the power generation amount by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat recovery by heating and compressing heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を22倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of 22 times hydrogravity geothermal power generation + storage battery driven various automobiles primed + water pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated. + Three types of turbine blade temperature control turbines that increase the amount of accelerated power generation vertically below the water. Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly drive and a geothermal air heater as the same diameter. タービン翼断面(4X)を23倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross-section (4X) of 23 times + storage battery-powered various automobiles are primed + a water pump (1J) is installed at the corner of the square turbine outer box + water is stored and stored + Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated + water is accelerated with superheated steam, and three types of turbine blade temperature control turbines with increased power generation can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each shape with the same diameter. タービン翼断面(4X)を24倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 24 times + storage battery driven various automobiles primed + a pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を25倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of hydrogravity geothermal power generation of 25 times + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を2倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of double hydrogravity geothermal power generation + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 ° C, and another air is heated and heat recovery is repeated, and heat is compressed. Water is compressed and air is accelerated to increase power generation. Combined engine with various energy storage cycles that collects geothermal heat with a mating bolt assembly drive and a geothermal air heater with the same diameter and approximately the same shape. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with three times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with four times the turbine blade cross-section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を5倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 5 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を6倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 6 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を7倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with seven times the turbine blade cross section (4X) + making hot and cold use primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を8倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Water can be fully automatically machined with three types of turbine blade temperature control turbines that accelerate acceleration power generation vertically downward Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を9倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Accelerates water with superheated steam and fully generates three types of turbine blade temperature controlled turbines that increase power generation Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater as possible with the same diameter and diameter as each paragraph. タービン翼断面(4X)を10倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 10 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を11倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times the hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box and the water is raised and stored + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を12倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 12 times the hydrogravity geothermal power generation generating turbine blade method + factory electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats recovery of heat by compressing and recovering heat + Fully automatic processing of turbines with three types of turbine blade temperature control that increase water generation by accelerating water and compressing air Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 14 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を15倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 15 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を16倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 16 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を17倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 17 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を18倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a thermal insulation turbine by providing multiple stages of hydrogravity geothermal power generation turbines with 18 times the turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal air, heat production close to 1200 degrees and repeated heat and compression heat recovery + Three types of turbine blades that accelerate water generation vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を19倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat insulation turbine by providing multiple stages of hydrogravity geothermal power generation turbines with 19 times the turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is a square turbine 3 types of heat production by increasing the amount of power generation by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat compression heat recovery + Accelerating the water with superheated steam Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を20倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 20 times + a fully electrified house prime + a pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を21倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を22倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4X) + full electrification housing prime + pumping device (1J) is a square turbine 3 types of turbines that increase the power generation amount by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat recovery by heating and compressing heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を23倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross-section (4X) of 23 times + storage battery-powered various automobiles are primed + a water pump (1J) is installed at the corner of the square turbine outer box + water is stored and stored + Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated. + Three types of turbine blade temperature control turbines that increase the amount of accelerated power generation vertically below the water. Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly drive and a geothermal air heater as the same diameter. タービン翼断面(4X)を24倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 24 times + storage battery driven various automobiles primed + a pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated + water is accelerated with superheated steam, and three types of turbine blade temperature control turbines with increased power generation can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each shape with the same diameter. タービン翼断面(4X)を25倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of hydrogravity geothermal power generation of 25 times + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を2倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of double hydrogravity geothermal power generation + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を3倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of hydrogravity geothermal power generation 3 times + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed and heated close to 1200 ° C, and another air is heated and compressed heat recovery is repeated + Compressed water is accelerated to increase the amount of power generated by three types of turbine blade temperature control turbines can be fully automated Combined engine with various energy storage cycles that collects geothermal heat with a mating bolt assembly drive and a geothermal air heater with the same diameter. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with four times the turbine blade cross-section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を5倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 5 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を6倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 6 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を7倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with seven times the turbine blade cross section (4X) + making hot and cold use primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を8倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 8 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を9倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Water can be fully automatically machined with three types of turbine blade temperature control turbines that accelerate acceleration power generation vertically downward Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を10倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 10 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Accelerates water with superheated steam and fully generates three types of turbine blade temperature controlled turbines that increase power generation Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as possible with the same diameter and shape as each paragraph. タービン翼断面(4X)を11倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times the hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box and the water is raised and stored + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を12倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 12 times the hydrogravity geothermal power generation generating turbine blade method + factory electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を13倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times the hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box and water is stored up + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats recovery of heat by compressing and recovering heat + Fully automatic processing of turbines with three types of turbine blade temperature control that increase water generation by accelerating water and compressing air Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 14 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を15倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 15 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を16倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 16 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を17倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 17 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を18倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 18 times the turbine blade cross-section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を19倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat insulation turbine by providing multiple stages of hydrogravity geothermal power generation turbines with 19 times the turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal air, heat production close to 1200 degrees and repeated heat and compression heat recovery + Three types of turbine blades that accelerate water generation vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を20倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 20 times + a fully electrified house prime + a pumping device (1J) is a square turbine 3 types of heat production by increasing the amount of power generation by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat compression heat recovery + Accelerating the water with superheated steam Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を21倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を22倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4X) + full electrification housing prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を23倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is a square turbine 3 types of turbines that increase the power generation amount by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat recovery by heating and compressing heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を24倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 24 times + storage battery driven various automobiles primed + a pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated. + Three types of turbine blade temperature control turbines that increase the amount of accelerated power generation vertically below the water. Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly drive and a geothermal air heater as the same diameter. タービン翼断面(4X)を25倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of hydrogravity geothermal power generation of 25 times + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated + water is accelerated with superheated steam, and three types of turbine blade temperature control turbines with increased power generation can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each shape with the same diameter. タービン翼断面(4X)を2倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of double hydrogravity geothermal power generation + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を3倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of hydrogravity geothermal power generation 3 times + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を4倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 4 times the turbine blade cross section (4X) + storage battery driven various automobiles primed + a water pump (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed and heated close to 1200 ° C, and another air is heated and compressed heat recovery is repeated + Compressed water is accelerated to increase the amount of power generated by three types of turbine blade temperature control turbines can be fully automated Combined engine with various energy storage cycles that collects geothermal heat with a mating bolt assembly drive and a geothermal air heater with the same diameter. タービン翼断面(4X)を5倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 5 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を6倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 6 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を7倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with seven times the turbine blade cross section (4X) + making hot and cold use primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を8倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 8 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を9倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 9 times the turbine blade cross section (4X) + making use of hot and cold heat + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を10倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 10 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Water can be fully automatically machined with three types of turbine blade temperature control turbines that accelerate acceleration power generation vertically downward Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を11倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times the hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box and the water is raised and stored + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Accelerates water with superheated steam and fully generates three types of turbine blade temperature controlled turbines that increase power generation Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as possible with the same diameter and shape as each paragraph. タービン翼断面(4X)を12倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 12 times the hydrogravity geothermal power generation generating turbine blade method + factory electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を13倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times the hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box and water is stored up + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を14倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats recovery of heat by compressing and recovering heat + Fully automatic processing of turbines with three types of turbine blade temperature control that increase water generation by accelerating water and compressing air Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を15倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 15 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を16倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 16 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を17倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 17 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を18倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 18 times the turbine blade cross-section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を19倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 19 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を20倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 20 times + a fully electrified house prime + a pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal air, heat production close to 1200 degrees and repeated heat and compression heat recovery + Three types of turbine blades that accelerate water generation vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を21倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is a square turbine 3 types of heat production by increasing the amount of power generation by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat compression heat recovery + Accelerating the water with superheated steam Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を22倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4X) + full electrification housing prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を23倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を24倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4X) + full electrification house prime + water pumping device (1J) is a square turbine 3 types of turbines that increase the power generation amount by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat recovery by heating and compressing heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を25倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of hydrogravity geothermal power generation of 25 times + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated. + Three types of turbine blade temperature control turbines that increase the amount of accelerated power generation vertically below the water. Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly drive and a geothermal air heater as the same diameter. タービン翼断面(4X)を2倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of double hydrogravity geothermal power generation + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated + water is accelerated with superheated steam, and three types of turbine blade temperature control turbines with increased power generation can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each shape with the same diameter. タービン翼断面(4X)を3倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of hydrogravity geothermal power generation 3 times + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を4倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 4 times the turbine blade cross section (4X) + storage battery driven various automobiles primed + a water pump (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of hydrogravity geothermal power generation 5 times + storage battery-powered various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed and heated close to 1200 ° C, and another air is heated and compressed heat recovery is repeated + Compressed water is accelerated to increase the amount of power generated by three types of turbine blade temperature control turbines can be fully automated Combined engine with various energy storage cycles that collects geothermal heat with a mating bolt assembly drive and a geothermal air heater with the same diameter. タービン翼断面(4X)を6倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 6 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を7倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with seven times the turbine blade cross section (4X) + making hot and cold use primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を8倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 8 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を9倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 9 times the turbine blade cross section (4X) + making use of hot and cold heat + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically and vertically by using multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) 10 times larger + Making hot and cold energy primed + Collecting geothermal heat with a geothermal air heater + Pumping equipment (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を11倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times the hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box and the water is raised and stored + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Water can be fully automatically machined with three types of turbine blade temperature control turbines that accelerate acceleration power generation vertically downward Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を12倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 12 times the hydrogravity geothermal power generation generating turbine blade method + factory electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Accelerates water with superheated steam and fully generates three types of turbine blade temperature controlled turbines that increase power generation Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as possible with the same diameter and shape as each paragraph. タービン翼断面(4X)を13倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times the hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box and water is stored up + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を14倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times as many hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner corner of square type turbine to ascend and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats recovery of heat by compressing and recovering heat + Fully automatic processing of turbines with three types of turbine blade temperature control that increase water generation by accelerating water and compressing air Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を16倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 16 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を17倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 17 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を18倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 18 times the turbine blade cross-section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を19倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 19 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 20 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を21倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal air, heat production close to 1200 degrees and repeated heat and compression heat recovery + Three types of turbine blades that accelerate water generation vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を22倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4X) + full electrification housing prime + pumping device (1J) is a square turbine 3 types of heat production by increasing the amount of power generation by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat compression heat recovery + Accelerating the water with superheated steam Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を23倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を24倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4X) + full electrification house prime + water pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を25倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4X) + full electrification house prime + pumping device (1J) is a square turbine 3 types of turbines that increase the power generation amount by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat recovery by heating and compressing heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を2倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of double hydrogravity geothermal power generation + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated. + Three types of turbine blade temperature control turbines that increase the amount of accelerated power generation vertically below the water. Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly drive and a geothermal air heater as the same diameter. タービン翼断面(4X)を3倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of hydrogravity geothermal power generation 3 times + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated + water is accelerated with superheated steam, and three types of turbine blade temperature control turbines with increased power generation can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each shape with the same diameter. タービン翼断面(4X)を4倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 4 times the turbine blade cross section (4X) + storage battery driven various automobiles primed + a water pump (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of hydrogravity geothermal power generation 5 times + storage battery-powered various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4X) + storage battery-powered various automobiles primed + a pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + geothermal Heat production is compressed and heated close to 1200 ° C, and another air is heated and compressed heat recovery is repeated + Compressed water is accelerated to increase the amount of power generated by three types of turbine blade temperature control turbines can be fully automated Combined engine with various energy storage cycles that collects geothermal heat with a mating bolt assembly drive and a geothermal air heater with the same diameter. タービン翼断面(4X)を7倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with seven times the turbine blade cross section (4X) + making hot and cold use primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を8倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 8 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を9倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 9 times the turbine blade cross section (4X) + making use of hot and cold heat + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically and vertically by using multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) 10 times larger + Making hot and cold energy primed + Collecting geothermal heat with a geothermal air heater + Pumping equipment (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を12倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 12 times the hydrogravity geothermal power generation generating turbine blade method + factory electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Water can be fully automatically machined with three types of turbine blade temperature control turbines that accelerate acceleration power generation vertically downward Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を13倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times the hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box and water is stored up + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Accelerates water with superheated steam and fully generates three types of turbine blade temperature controlled turbines that increase power generation Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as possible with the same diameter and shape as each paragraph. タービン翼断面(4X)を14倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times as many hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner corner of square type turbine to ascend and store water + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats recovery of heat by compressing and recovering heat + Fully automatic processing of turbines with three types of turbine blade temperature control that increase water generation by accelerating water and compressing air Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を17倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 17 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を18倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 18 times the turbine blade cross-section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を19倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 19 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 20 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を22倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4X) + full electrification housing prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal air, heat production close to 1200 degrees and repeated heat and compression heat recovery + Three types of turbine blades that accelerate water generation vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を23倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is a square turbine 3 types of heat production by increasing the amount of power generation by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat compression heat recovery + Accelerating the water with superheated steam Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を24倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4X) + full electrification house prime + water pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を25倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4X) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を2倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is a square turbine 3 types of turbines that increase the power generation amount by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat recovery by heating and compressing heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を3倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of hydrogravity geothermal power generation 3 times + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated. + Three types of turbine blade temperature control turbines that increase the amount of accelerated power generation vertically below the water. Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly drive and a geothermal air heater as the same diameter. タービン翼断面(4X)を4倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 4 times the turbine blade cross section (4X) + storage battery driven various automobiles primed + a water pump (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated + water is accelerated with superheated steam, and three types of turbine blade temperature control turbines with increased power generation can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each shape with the same diameter. タービン翼断面(4X)を5倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of hydrogravity geothermal power generation 5 times + storage battery-powered various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4X) + storage battery-powered various automobiles primed + a pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross-section (4X) of 7 times + storage battery-powered various automobiles primed + a water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed and heated close to 1200 ° C, and another air is heated and compressed heat recovery is repeated + Compressed water is accelerated to increase the amount of power generated by three types of turbine blade temperature control turbines can be fully automated Combined engine with various energy storage cycles that collects geothermal heat with a mating bolt assembly drive and a geothermal air heater with the same diameter and approximately the same shape. タービン翼断面(4X)を8倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Configuration and method of accelerating the hydrogravity generated water 8 times lower than the turbine blade cross section (4X) + the heat of the air heated by geothermal heat and recovering the compressed heat, and the turbine with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Three types of turbine blades with accelerated acceleration power generation in the vertically downward direction, capable of fully automatic processing of turbine blade temperature control turbines, and various energy storage cycle coalescence engines that collect geothermal heat with mating bolt assembly drive + geothermal air heaters with the same diameter and shape of each paragraph . タービン翼断面(4X)を9倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Configuration and method of accelerating the hydrogravity generated water 9 times lower than the turbine blade cross section (4X) + geothermal heating air is sucked and compressed heat is recovered, and superheated steam (50) and compressed air (28a) are used as turbines, respectively. Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Three types of turbine blade temperature control turbines that are accelerated by superheated steam to increase power generation and can be fully automatically machined. Various energy storage cycles to recover geothermal heat with a mating bolt assembly drive and geothermal air heater with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を10倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Configuration and method of accelerating 10 times the hydrogravity power water vertically down the turbine blade cross section (4X) + geothermally heated air by suction compression heat recovery and turbine with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Three types of turbine blade temperature control turbines with increased power generation as an accelerated rolling contact vertically downward Fully automatic processing of turbines with the same diameter and same shape for each stage Retaining geothermal energy with geothermal air heater Cycle coalescence engine. タービン翼断面(4X)を11倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Configuration and method of accelerating the vertical direction of water gravity power generation water 11 times the turbine blade cross section (4X) + the heat of the air heated by geothermal heat, and recovering the compressed heat and superheated steam (50) and compressed air (28a) respectively. Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Three types of turbine blade temperature control turbines with increased power generation as an accelerated rolling contact vertically downward Fully automatic processing of turbines with the same diameter and same shape for each stage Retaining geothermal energy with geothermal air heater Cycle coalescence engine. タービン翼断面(4X)を12倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Configuration and method of accelerating 12 times the hydrogravity power generation water vertically down the turbine blade cross section (4X) + geothermally heated air by suction compression heat recovery and turbine with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Three types of turbine blades with increased power generation by accelerating compressed air Fully automatic processing of turbine blade temperature controlled turbines Combined with various bolts to drive geothermal heat using geothermal air heaters with assembly bolt assembly drive and geothermal air heater organ. タービン翼断面(4X)を13倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Configuration and method of accelerating 13 times the hydrogravity power generation water vertically down the turbine blade cross section (4X) + geothermally heated air by suction compression heat recovery and turbine with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Three types of turbine blades with accelerated acceleration power generation in the vertically downward direction, capable of fully automatic processing of turbine blade temperature control turbines, and various energy storage cycle coalescence engines that collect geothermal heat with mating bolt assembly drive + geothermal air heaters with the same diameter and shape of each paragraph . タービン翼断面(4X)を14倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Configuration and method of accelerating 14 times hydrogravity power generation vertically down turbine blade cross section (4X) + geothermal heating air is recovered by suction compression heat and turbine is heated with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Three types of turbine blade temperature control turbines that are accelerated by superheated steam to increase power generation and can be fully automatically machined. Various energy storage cycles to recover geothermal heat with a mating bolt assembly drive and geothermal air heater with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を15倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Configuration and method of accelerating 15 times the hydrogravity generated water vertically down the turbine blade cross section (4X) + geothermally heated air by suction compression heat recovery and turbine with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Three types of turbine blade temperature control turbines with increased power generation as an accelerated rolling contact vertically downward Fully automatic processing of turbines with the same diameter and same shape for each stage Retaining geothermal energy with geothermal air heater Cycle coalescence engine. タービン翼断面(4X)を16倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Structure and method for accelerating 16 times the hydrogravity generated water vertically down the turbine blade cross section (4X) + geothermally heated air by suction compression heat recovery and turbine with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Three types of turbine blade temperature control turbines with increased power generation as an accelerated rolling contact vertically downward Fully automatic processing of turbines with the same diameter and same shape for each stage Retaining geothermal energy with geothermal air heater Cycle coalescence engine. タービン翼断面(4X)を17倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Configuration and method for accelerating 17 times the hydrogravity power generated vertically by turbine blade cross section (4X) + geothermal heating air is recovered by suction compression heat and turbine is heated by superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Three types of turbine blades with increased power generation by accelerating compressed air Fully automatic processing of turbine blade temperature controlled turbines Combined with various bolts to drive geothermal heat using geothermal air heaters with assembly bolt assembly drive and geothermal air heater organ. タービン翼断面(4X)を18倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 18 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, heated to 1200 degrees and heated to repeatedly heat and compress heat recovery + Three types of turbine blade temperature to accelerate water generation vertically downward Various energy storage cycle coalescence engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and almost the same shape for each paragraph to enable fully automatic processing of the managed turbine. タービン翼断面(4X)を19倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19-times hydrogravity geothermal turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various ships prime + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Accelerating water with superheated steam to increase power generation 3 types of turbines Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 20 times + accelerating water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine 3 types of heat production by compressing the geothermal heating air and bringing it closer to 1200 degrees, repeating the heat and compression heat recovery, and increasing the amount of power generation by accelerating and rolling the water vertically downward and contacting Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross section (4X) + accelerating the storage battery drive + pumping device (1J) outside the square turbine 3 types of heat production by compressing the geothermal heating air and bringing it closer to 1200 degrees, repeating the heat and compression heat recovery, and increasing the amount of power generation by accelerating and rolling the water vertically downward and contacting Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heat recovery by heating and compression + Three types of turbine blades to increase power generation by accelerating water and compressed air Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 23 times + accelerating water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, heated to 1200 degrees and heated to repeatedly heat and compress heat recovery + Three types of turbine blade temperature to accelerate water generation vertically downward Various energy storage cycle coalescence engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and almost the same shape for each paragraph to enable fully automatic processing of the managed turbine. タービン翼断面(4X)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross-section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, heated to 1200 degrees and heated to repeatedly heat and compress heat recovery + Three types of turbine blade temperature to accelerate water generation vertically downward Various energy storage cycle coalescence engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and almost the same shape for each paragraph to enable fully automatic processing of the managed turbine. タービン翼断面(4X)を25倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 25 times + accelerating water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, heated to 1200 degrees and heated to repeatedly heat and compress heat recovery + Three types of turbine blade temperature to accelerate water generation vertically downward Various energy storage cycle coalescence engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and almost the same shape for each paragraph to enable fully automatic processing of the managed turbine. タービン翼断面(4X)を2倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4X) + accelerating the storage battery-powered various ships + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, heated to 1200 degrees and heated to repeatedly heat and compress heat recovery + Three types of turbine blade temperature to accelerate water generation vertically downward Various energy storage cycle coalescence engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and almost the same shape for each paragraph to enable fully automatic processing of the managed turbine. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with three times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, heated to 1200 degrees and heated to repeatedly heat and compress heat recovery + Three types of turbine blade temperature to accelerate water generation vertically downward Various energy storage cycle coalescence engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and almost the same shape for each paragraph to enable fully automatic processing of the managed turbine. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with four times the turbine blade cross-section (4X) + storage battery-powered various vessels primed + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Accelerating water with superheated steam to increase power generation 3 types of turbines Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を5倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 5 times the turbine blade cross section (4X) + accelerating the storage battery drive + pumping equipment (1J) outside the square turbine Installed in the corner of the box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Accelerating water with superheated steam to increase power generation 3 types of turbines Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を6倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 6 times the turbine blade cross section (4X) + accelerating the water storage + various types of vessels driven + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Accelerating water with superheated steam to increase power generation 3 types of turbines Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を7倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 7 times the turbine blade cross section (4X) + accelerating the storage battery drive + pumping equipment (1J) outside the square turbine Installed in the corner of the box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Accelerating water with superheated steam to increase power generation 3 types of turbines Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を8倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 8 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Accelerating water with superheated steam to increase power generation 3 types of turbines Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を9倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 9 times the turbine blade cross section (4X) + storage battery-powered various ships primed + pumping device (1J) outside square turbine 3 types of heat production by compressing the geothermal heating air and bringing it closer to 1200 degrees, repeating the heat and compression heat recovery, and increasing the amount of power generation by accelerating and rolling the water vertically downward and contacting Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 10 times + accelerating water vertically + accelerating the storage battery drive + pumping device (1J) outside square turbine 3 types of heat production by compressing the geothermal heating air and bringing it closer to 1200 degrees, repeating the heat and compression heat recovery, and increasing the amount of power generation by accelerating and rolling the water vertically downward and contacting Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing 11-fold hydrogravity geothermal turbines with 11 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine 3 types of heat production by compressing the geothermal heating air and bringing it closer to 1200 degrees, repeating the heat and compression heat recovery, and increasing the amount of power generation by accelerating and rolling the water vertically downward and contacting Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross section (4X) + accelerating water storage + various types of vessels driven + pumping device (1J) outside square turbine 3 types of heat production by compressing the geothermal heating air and bringing it closer to 1200 degrees, repeating the heat and compression heat recovery, and increasing the amount of power generation by accelerating and rolling the water vertically downward and contacting Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine 3 types of heat production by compressing the geothermal heating air and bringing it closer to 1200 degrees, repeating the heat and compression heat recovery, and increasing the amount of power generation by accelerating and rolling the water vertically downward and contacting Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 14 times the turbine blade cross-section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine 3 types of heat production by compressing the geothermal heating air and bringing it closer to 1200 degrees, repeating the heat and compression heat recovery, and increasing the amount of power generation by accelerating and rolling the water vertically downward and contacting Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を15倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 15 times + accelerating water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine 3 types of heat production by compressing the geothermal heating air and bringing it closer to 1200 degrees, repeating the heat and compression heat recovery, and increasing the amount of power generation by accelerating and rolling the water vertically downward and contacting Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を16倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 16 times + accelerating the water vertically + accelerating storage battery-powered vessels + pumping device (1J) outside square turbine 3 types of heat production by compressing the geothermal heating air and bringing it closer to 1200 degrees, repeating the heat and compression heat recovery, and increasing the amount of power generation by accelerating and rolling the water vertically downward and contacting Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を17倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 17 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine 3 types of heat production by compressing the geothermal heating air and bringing it closer to 1200 degrees, repeating the heat and compression heat recovery, and increasing the amount of power generation by accelerating and rolling the water vertically downward and contacting Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を18倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 18 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine 3 types of heat production by compressing the geothermal heating air and bringing it closer to 1200 degrees, repeating the heat and compression heat recovery, and increasing the amount of power generation by accelerating and rolling the water vertically downward and contacting Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を19倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19-times hydrogravity geothermal turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various ships prime + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heat recovery by heating and compression + Three types of turbine blades to increase power generation by accelerating water and compressed air Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 20 times + accelerating water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heat recovery by heating and compression + Three types of turbine blades to increase power generation by accelerating water and compressed air Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 21 times + accelerating water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heat recovery by heating and compression + Three types of turbine blades to increase power generation by accelerating water and compressed air Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heat recovery by heating and compression + Three types of turbine blades to increase power generation by accelerating water and compressed air Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 23 times + accelerating water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine Installed in the corner of the box to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heat recovery by heating and compression + Three types of turbine blades to increase power generation by accelerating water and compressed air Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を多段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross-section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed at the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Multiple stages of 3 assembly and drive turbines for each blade group Various energy storage cycle coalescence engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を25倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を多段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 25 times + accelerating water vertically + accelerating various battery-powered vessels + pumping device (1J) outside square turbine Installed at the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Multiple stages of 3 assembly and drive turbines for each blade group Various energy storage cycle coalescence engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を多段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4X) + accelerating the storage battery-powered various ships + pumping device (1J) outside square turbine Installed at the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Multiple stages of 3 assembly and drive turbines for each blade group Various energy storage cycle coalescence engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を多段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with three times the turbine blade cross section (4X) + accelerating the storage battery-powered vessels + pumping device (1J) outside the square turbine Installed at the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Multiple stages of 3 assembly and drive turbines for each blade group Various energy storage cycle coalescence engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を多段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with four times the turbine blade cross-section (4X) + storage battery-powered various vessels primed + pumping device (1J) outside square turbine Installed at the corner of the box to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating and compression heat recovery + Multiple stages of 3 assembly and drive turbines for each blade group Various energy storage cycle coalescence engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を5倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 5 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) Increase the head + Pump the water pump (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it closer to 1200 degrees and repeat the heat recovery by heating and compressing heat recovery Manufacture + 3 types of turbine blade temperature control turbines that increase the amount of accelerated power generation vertically below the water. Fully automatic machining of turbine blades with the same diameter and shape of each stage. Various energy to collect geothermal heat with geothermal air heater. Conservation cycle coalescence organization. タービン翼断面(4X)を6倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 6 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) Increase the head + Pump the water pump (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it closer to 1200 degrees and repeat the heat recovery by heating and compressing heat recovery Manufacture + Accelerate water with superheated steam to increase power generation 3 types Turbine blade temperature control turbines can be fully automatic machined The same diameter and shape of each paragraph can be assembled and fitted bolt assembly drive + geothermal air heater can be recovered Various energy conservation cycle coalescence engine. タービン翼断面(4X)を7倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with seven times the turbine blade cross section (4X) + making hot and cold use primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) Increase the head + Pump the water pump (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it closer to 1200 degrees and repeat the heat recovery by heating and compressing heat recovery Manufacture + 3 kinds of turbine blade temperature control turbines with increased power generation by accelerating rolling contact with water vertically downward Fully automatic processing of turbine blade temperature control turbines with the same diameter and shape of each paragraph Recovering geothermal heat with geothermal air heater Various energy conservation cycle coalescing engines. タービン翼断面(4X)を8倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 8 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) Increase the head + Pump the water pump (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it closer to 1200 degrees and repeat the heat recovery by heating and compressing heat recovery Manufacture + 3 kinds of turbine blade temperature control turbines with increased power generation by accelerating rolling contact with water vertically downward Fully automatic processing of turbine blade temperature control turbines with the same diameter and shape of each paragraph Recovering geothermal heat with geothermal air heater Various energy conservation cycle coalescing engines. タービン翼断面(4X)を9倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 9 times the turbine blade cross section (4X) + making use of hot and cold heat + collecting geothermal heat with a geothermal air heater + pumping device (1J) Increase the head + Pump the water pump (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it closer to 1200 degrees and repeat the heat recovery by heating and compressing heat recovery Manufacture + 3 types of turbine blade temperature control turbines with increased power generation by accelerating water with compressed air to enable fully automatic processing. Energy conservation cycle coalescence engine. タービン翼断面(4X)を10倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically and vertically by using multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) 10 times larger + Making hot and cold energy primed + Collecting geothermal heat with a geothermal air heater + Pumping equipment (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 14 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を15倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times as many hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification primed + pumping device (1J) installed at corner corner of square type turbine to ascend and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Water can be fully automatically machined with three types of turbine blade temperature control turbines that accelerate acceleration power generation vertically downward Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Accelerates water with superheated steam and fully generates three types of turbine blade temperature controlled turbines that increase power generation Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as possible with the same diameter and shape as each paragraph. タービン翼断面(4X)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17-fold hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed in corner corner of square type turbine and water is stored ascending + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is raised and stored + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats recovery of heat by compressing and recovering heat + Fully automatic processing of turbines with three types of turbine blade temperature control that increase water generation by accelerating water and compressing air Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 20 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4X) + making use of hot and cold heat + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を25倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4X) + full electrification house prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal air, heat production close to 1200 degrees and repeated heat and compression heat recovery + Three types of turbine blades that accelerate water generation vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を2倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is a square turbine 3 types of heat production by increasing the amount of power generation by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat compression heat recovery + Accelerating the water with superheated steam Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing three stages of turbine blade cross-sections (4X) in multiple stages, and making the entire vertical electrified house primed + pumping equipment (1J) a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine with a four-fold hydrogravity geothermal turbine with a turbine blade cross section (4X) + a fully electrified house prime + a pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を5倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with five times the turbine blade cross section (4X) + full electrification house prime + pumping device (1J) is a square turbine 3 types of turbines that increase the power generation amount by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat recovery by heating and compressing heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を6倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 6 times the turbine blade cross section (4X) + storage battery-powered various automobiles primed + a pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated. + Three types of turbine blade temperature control turbines that increase the amount of accelerated power generation vertically below the water. Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly drive and a geothermal air heater as the same diameter. タービン翼断面(4X)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross-section (4X) of 7 times + storage battery-powered various automobiles primed + a water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated + water is accelerated with superheated steam, and three types of turbine blade temperature control turbines with increased power generation can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each shape with the same diameter. タービン翼断面(4X)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 8 times + storage battery powered various automobiles primed + a water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times hydrogravity geothermal power generation structure and method + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を10倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of 10 times hydrogravity geothermal power generation + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed and heated close to 1200 ° C, and another air is heated and compressed heat recovery is repeated + Compressed water is accelerated to increase the amount of power generated by three types of turbine blade temperature control turbines can be fully automated Combined engine with various energy storage cycles that collects geothermal heat with a mating bolt assembly drive and a geothermal air heater with the same diameter. タービン翼断面(4X)を11倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 11 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 14 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を15倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 15 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を16倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Water can be fully automatically machined with three types of turbine blade temperature control turbines that accelerate acceleration power generation vertically downward Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17-fold hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of rectangular turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Accelerates water with superheated steam and fully generates three types of turbine blade temperature controlled turbines that increase power generation Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as possible with the same diameter and shape as each paragraph. タービン翼断面(4X)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed in corner corner of square type turbine and water is stored ascending + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is raised and stored + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を20倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 20 times hydrogravity geothermal power generation generating equipment blades to make all turbine blades + factory electrification prime + water pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats recovery of heat by compressing and recovering heat + Fully automatic processing of turbines with three types of turbine blade temperature control that increase water generation by accelerating water and compressing air Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4X) + making use of hot and cold heat + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を25倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を2倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with double turbine blade cross section (4X) + full electrified house prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal air, heat production close to 1200 degrees and repeated heat and compression heat recovery + Three types of turbine blades that accelerate water generation vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 3 times + a fully electrified house prime + a pumping device (1J) is a square turbine 3 types of heat production by increasing the amount of power generation by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat compression heat recovery + Accelerating the water with superheated steam Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine with a four-fold hydrogravity geothermal turbine with four times the turbine blade cross section (4X) + full-scale electrified house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を5倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with five times the turbine blade cross section (4X) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を6倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 6 times the turbine blade cross section (4X) + full-scale electrified housing prime + pumping device (1J) is a square turbine 3 types of turbines that increase the power generation amount by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat recovery by heating and compressing heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を7倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross-section (4X) of 7 times + storage battery-powered various automobiles primed + a water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated. + Three types of turbine blade temperature control turbines that increase the amount of accelerated power generation vertically below the water. Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly drive and a geothermal air heater as the same diameter. タービン翼断面(4X)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 8 times + storage battery powered various automobiles primed + a water pump (1J) installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated + water is accelerated with superheated steam, and three types of turbine blade temperature control turbines with increased power generation can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each shape with the same diameter. タービン翼断面(4X)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times hydrogravity geothermal power generation structure and method + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を10倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of 10 times hydrogravity geothermal power generation + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を11倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with 11x turbine blade cross section (4X) + storage battery driven various automobiles primed + water pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed and heated close to 1200 ° C, and another air is heated and compressed heat recovery is repeated + Compressed water is accelerated to increase the amount of power generated by three types of turbine blade temperature control turbines can be fully automated Combined engine with various energy storage cycles that collects geothermal heat with a mating bolt assembly drive and a geothermal air heater with the same diameter. タービン翼断面(4X)を12倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 14 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を15倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 15 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を16倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 16 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を17倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 17 times the hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Water can be fully automatically machined with three types of turbine blade temperature control turbines that accelerate acceleration power generation vertically downward Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times as many hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square type turbine and water is raised and stored + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Accelerates water with superheated steam and fully generates three types of turbine blade temperature controlled turbines that increase power generation Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater as possible with the same diameter and shape as each paragraph. タービン翼断面(4X)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is raised and stored + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を20倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 20 times hydrogravity geothermal power generation generating equipment blades to make all turbine blades + factory electrification prime + water pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を21倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats recovery of heat by compressing and recovering heat + Fully automatic processing of turbines with three types of turbine blade temperature control that increase water generation by accelerating water and compressing air Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を22倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 22 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4X) + making use of hot and cold heat + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を25倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を2倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with double turbine blade cross-section (4X) + making hot and cold use prime + collecting geothermal heat with geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 3 times + a fully electrified house prime + a pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal air, heat production close to 1200 degrees and repeated heat and compression heat recovery + Three types of turbine blades that accelerate water generation vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine with a four-fold hydrogravity geothermal turbine with four times the turbine blade cross section (4X) + full-scale electrified house prime + pumping device (1J) is a square turbine 3 types of heat production by increasing the amount of power generation by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat compression heat recovery + Accelerating the water with superheated steam Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を5倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with five times the turbine blade cross section (4X) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を6倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine with a multi-stage hydrogravity geothermal turbine with 6 times the turbine blade cross section (4X) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を7倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 7 times the turbine blade cross section (4X) + full-scale electrified housing prime + pumping device (1J) is a square turbine 3 types of turbines that increase the power generation amount by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat recovery by heating and compressing heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を8倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 8 times + storage battery-powered various automobiles primed + a pumping device (1J) installed at the corner of a square turbine outer box to store and save water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated. + Three types of turbine blade temperature control turbines that increase the amount of accelerated power generation vertically below the water. Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly drive and a geothermal air heater as the same diameter. タービン翼断面(4X)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times hydrogravity geothermal power generation structure and method + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated + water is accelerated with superheated steam, and three types of turbine blade temperature control turbines with increased power generation can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each shape with the same diameter. タービン翼断面(4X)を10倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of 10 times hydrogravity geothermal power generation + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を11倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with 11x turbine blade cross section (4X) + storage battery driven various automobiles primed + water pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を12倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of 12 times hydrogravity geothermal power generation + storage battery driven various automobiles prime + water pumping device (1J) is installed at the corner of square turbine outer box + water is stored up + geothermal Heat production is compressed and heated close to 1200 ° C, and another air is heated and compressed heat recovery is repeated + Compressed water is accelerated to increase the amount of power generated by three types of turbine blade temperature control turbines can be fully automated Combined engine with various energy storage cycles that collects geothermal heat with a mating bolt assembly drive and a geothermal air heater with the same diameter. タービン翼断面(4X)を13倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 13 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 14 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を15倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 15 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を16倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 16 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を17倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 17 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を18倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed in corner corner of square type turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Water can be fully automatically machined with three types of turbine blade temperature control turbines that accelerate acceleration power generation vertically downward Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is raised and stored + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Accelerates water with superheated steam and fully generates three types of turbine blade temperature controlled turbines that increase power generation Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as possible with the same diameter and shape as each paragraph. タービン翼断面(4X)を20倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 20 times hydrogravity geothermal power generation generating equipment blades to make all turbine blades + factory electrification prime + water pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を21倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) with 21 times the hydrogravity geothermal power generation generating turbine blade equipment method + factory electrification prime + water pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を22倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times the hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + water pumping device (1J) is installed at the corner of the square turbine outer box and water is stored up + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats recovery of heat by compressing and recovering heat + Fully automatic processing of turbines with three types of turbine blade temperature control that increase water generation by accelerating water and compressing air Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を23倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 23 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4X) + making use of hot and cold heat + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を25倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を2倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with double turbine blade cross-section (4X) + making hot and cold use prime + collecting geothermal heat with geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with three times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine with a four-fold hydrogravity geothermal turbine with a turbine blade cross section (4X) + a fully electrified house prime + a pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal air, heat production close to 1200 degrees and repeated heat and compression heat recovery + Three types of turbine blades that accelerate water generation vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を5倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with five times the turbine blade cross section (4X) + full electrification house prime + pumping device (1J) is a square turbine 3 types of heat production by increasing the amount of power generation by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat compression heat recovery + Accelerating the water with superheated steam Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を6倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine with a multi-stage hydrogravity geothermal turbine with 6 times the turbine blade cross section (4X) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を7倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 7 times the turbine blade cross section (4X) + full-scale electrified housing prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を8倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal power generation turbines with 8 times the turbine blade cross section (4X) + Fully electrified house prime + Pumping device (1J) is a square turbine 3 types of turbines that increase the power generation amount by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat recovery by heating and compressing heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を9倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times hydrogravity geothermal power generation structure and method + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated. + Three types of turbine blade temperature control turbines that increase the amount of accelerated power generation vertically below the water. Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly drive and a geothermal air heater as the same diameter. タービン翼断面(4X)を10倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of 10 times hydrogravity geothermal power generation + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated + water is accelerated with superheated steam, and three types of turbine blade temperature control turbines with increased power generation can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each shape with the same diameter. タービン翼断面(4X)を11倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with 11x turbine blade cross section (4X) + storage battery driven various automobiles primed + water pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を12倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of 12 times hydrogravity geothermal power generation + storage battery driven various automobiles primed + water pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を13倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 13 times the turbine blade cross section (4X) + accelerating storage battery-powered various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed and heated close to 1200 ° C, and another air is heated and compressed heat recovery is repeated + Compressed water is accelerated to increase the amount of power generated by three types of turbine blade temperature control turbines can be fully automated Combined engine with various energy storage cycles that collects geothermal heat with a mating bolt assembly drive and a geothermal air heater with the same diameter. タービン翼断面(4X)を14倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 14 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を15倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 15 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を16倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 16 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を17倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 17 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を18倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 18 times the turbine blade cross-section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を19倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 19 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is raised and stored + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Water can be fully automatically machined with three types of turbine blade temperature control turbines that accelerate acceleration power generation vertically downward Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を20倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 20 times hydrogravity geothermal power generation generating equipment blades to make all turbine blades + factory electrification prime + water pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Accelerates water with superheated steam and fully generates three types of turbine blade temperature controlled turbines that increase power generation Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as possible with the same diameter and shape as each paragraph. タービン翼断面(4X)を21倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) with 21 times the hydrogravity geothermal power generation generating turbine blade equipment method + factory electrification prime + water pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を22倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times the hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + water pumping device (1J) is installed at the corner of the square turbine outer box and water is stored up + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を23倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times as many hydrogravity geothermal power generation generating turbine blades + plant electrification prime + water pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats recovery of heat by compressing and recovering heat + Fully automatic processing of turbines with three types of turbine blade temperature control that increase water generation by accelerating water and compressing air Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を24倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 24 times the turbine blade cross section (4X) + making use of hot and cold heat + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を25倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を2倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with double turbine blade cross-section (4X) + making hot and cold use prime + collecting geothermal heat with geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with three times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with four times the turbine blade cross-section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を5倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with five times the turbine blade cross section (4X) + full electrification house prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal air, heat production close to 1200 degrees and repeated heat and compression heat recovery + Three types of turbine blades that accelerate water generation vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を6倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine with a multi-stage hydrogravity geothermal turbine with 6 times the turbine blade cross section (4X) + full electrification house prime + pumping device (1J) is a square turbine 3 types of heat production by increasing the amount of power generation by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat compression heat recovery + Accelerating the water with superheated steam Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を7倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 7 times the turbine blade cross section (4X) + full-scale electrified housing prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を8倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal power generation turbines with 8 times the turbine blade cross section (4X) + Fully electrified house prime + Pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を9倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with nine times the turbine blade cross section (4X) + full electrification house prime + water pumping device (1J) is a square turbine 3 types of turbines that increase the power generation amount by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat recovery by heating and compressing heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を10倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of 10 times hydrogravity geothermal power generation + storage battery driven various automobiles primed + pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated. + Three types of turbine blade temperature control turbines that increase the amount of accelerated power generation vertically below the water. Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly drive and a geothermal air heater as the same diameter. タービン翼断面(4X)を11倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with 11x turbine blade cross section (4X) + storage battery driven various automobiles primed + water pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated + water is accelerated with superheated steam, and three types of turbine blade temperature control turbines with increased power generation can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each shape with the same diameter. タービン翼断面(4X)を12倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of 12 times hydrogravity geothermal power generation + storage battery driven various automobiles primed + water pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を13倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 13 times the turbine blade cross section (4X) + accelerating storage battery-powered various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を14倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times hydrogravity geothermal power generation structure and method + storage battery drive various automobiles prime + water pump (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed and heated close to 1200 ° C, and another air is heated and compressed heat recovery is repeated + Compressed water is accelerated to increase the amount of power generated by three types of turbine blade temperature control turbines can be fully automated Combined engine with various energy storage cycles that collects geothermal heat with a mating bolt assembly drive and a geothermal air heater with the same diameter. タービン翼断面(4X)を15倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with 15 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を16倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 16 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を17倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 17 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を18倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 18 times the turbine blade cross-section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を19倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 19 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を20倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 20 times hydrogravity geothermal power generation generating equipment blades to make all turbine blades + factory electrification prime + water pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Water can be fully automatically machined with three types of turbine blade temperature control turbines that accelerate acceleration power generation vertically downward Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を21倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Accelerates water with superheated steam and fully generates three types of turbine blade temperature controlled turbines that increase power generation Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as possible with the same diameter and shape as each paragraph. タービン翼断面(4X)を22倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times the hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + water pumping device (1J) is installed at the corner of the square turbine outer box and water is stored up + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を23倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times as many hydrogravity geothermal power generation generating turbine blades + plant electrification prime + water pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を24倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times the hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + water pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats recovery of heat by compressing and recovering heat + Fully automatic processing of turbines with three types of turbine blade temperature control that increase water generation by accelerating water and compressing air Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を25倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by using multiple stages of hydrogravity geothermal turbines with 25 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を2倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with double turbine blade cross-section (4X) + making hot and cold use prime + collecting geothermal heat with geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with three times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with four times the turbine blade cross-section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を5倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 5 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を6倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine with a multi-stage hydrogravity geothermal turbine with 6 times the turbine blade cross section (4X) + full electrification house prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal air, heat production close to 1200 degrees and repeated heat and compression heat recovery + Three types of turbine blades that accelerate water generation vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を7倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 7 times the turbine blade cross section (4X) + full-scale electrified housing prime + pumping device (1J) is a square turbine 3 types of heat production by increasing the amount of power generation by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat compression heat recovery + Accelerating the water with superheated steam Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を8倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal power generation turbines with 8 times the turbine blade cross section (4X) + Fully electrified house prime + Pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を9倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with nine times the turbine blade cross section (4X) + full electrification house prime + water pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を10倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine with a turbine blade cross-section (4X) in multiple stages, and making the whole house electrified + a pumping device (1J) a square turbine 3 types of turbines that increase the power generation amount by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat recovery by heating and compressing heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を11倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Structure and method of hydrogravity geothermal power generation with 11x turbine blade cross section (4X) + storage battery driven various automobiles primed + water pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated. + Three types of turbine blade temperature control turbines that increase the amount of accelerated power generation vertically below the water. Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly drive and a geothermal air heater as the same diameter. タービン翼断面(4X)を12倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of 12 times hydrogravity geothermal power generation + storage battery driven various automobiles primed + water pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated + water is accelerated with superheated steam, and three types of turbine blade temperature control turbines with increased power generation can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each shape with the same diameter. タービン翼断面(4X)を13倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 13 times the turbine blade cross section (4X) + accelerating storage battery-powered various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を14倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times hydrogravity geothermal power generation structure and method + storage battery drive various automobiles prime + water pump (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を15倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of 15 times hydrogravity geothermal power generation + storage battery powered various automobiles primed + pumping device (1J) installed at corner corner of rectangular turbine outer casing + water storage + geothermal Heat production is compressed and heated close to 1200 ° C, and another air is heated and compressed heat recovery is repeated + Compressed water is accelerated to increase the amount of power generated by three types of turbine blade temperature control turbines can be fully automated Combined engine with various energy storage cycles that collects geothermal heat with a mating bolt assembly drive and a geothermal air heater with the same diameter. タービン翼断面(4X)を16倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 16 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を17倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 17 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を18倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 18 times the turbine blade cross-section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を19倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 19 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 20 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を21倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Water can be fully automatically machined with three types of turbine blade temperature control turbines that accelerate acceleration power generation vertically downward Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を22倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is raised and stored + Heat production by repeatedly compressing geothermal heating air, approaching 1200 degrees, and heating and compressing heat recovery from another air + Accelerating water with superheated steam to fully generate three types of turbine blade temperature controlled turbines with increased power generation Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater as possible with the same diameter and diameter as each paragraph. タービン翼断面(4X)を23倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times as many hydrogravity geothermal power generation generating turbine blades + plant electrification prime + water pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を24倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times the hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + water pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を25倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times as many hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats recovery of heat by compressing and recovering heat + Fully automatic processing of turbines with three types of turbine blade temperature control that increase water generation by accelerating water and compressing air Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を2倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with double turbine blade cross-section (4X) + making hot and cold use prime + collecting geothermal heat with geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with three times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with four times the turbine blade cross-section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を5倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 5 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を6倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 6 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating water with compressed air Three types of turbine blades with increased power generation Temperature control turbines with various energy storage cycle coalescing engines that use geometries to recover geothermal heat with a mating bolt assembly drive and geothermal air heater, with the same diameter and shape of each paragraph so that they can be fully automated. タービン翼断面(4X)を7倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 7 times the turbine blade cross section (4X) + full-scale electrified housing prime + pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal air, heat production close to 1200 degrees and repeated heat and compression heat recovery + Three types of turbine blades that accelerate water generation vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を8倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal power generation turbines with 8 times the turbine blade cross section (4X) + Fully electrified house prime + Pumping device (1J) is a square turbine 3 types of heat production by increasing the amount of power generation by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat compression heat recovery + Accelerating the water with superheated steam Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を9倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with nine times the turbine blade cross section (4X) + full electrification house prime + water pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を10倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine with a turbine blade cross-section (4X) in multiple stages, and making the whole house electrified + a pumping device (1J) a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を11倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine by providing multiple stages of 11-times hydrogravity geothermal turbines with a turbine blade cross section (4X) + full electrification house prime + water pumping device (1J) is a square turbine 3 types of turbines that increase the power generation amount by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat recovery by heating and compressing heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を12倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of 12 times hydrogravity geothermal power generation + storage battery driven various automobiles primed + water pumping device (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated. + Three types of turbine blade temperature control turbines that increase the amount of accelerated power generation vertically below the water. Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly drive and a geothermal air heater as the same diameter. タービン翼断面(4X)を13倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 13 times the turbine blade cross section (4X) + accelerating storage battery-powered various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated + water is accelerated with superheated steam, and three types of turbine blade temperature control turbines with increased power generation can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each shape with the same diameter. タービン翼断面(4X)を14倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times hydrogravity geothermal power generation structure and method + storage battery drive various automobiles prime + water pump (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を15倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of 15 times hydrogravity geothermal power generation + storage battery powered various automobiles primed + pumping device (1J) installed at corner corner of rectangular turbine outer casing + water storage + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を16倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 16 times + storage battery-powered various automobiles are primed + a water pump (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed and heated close to 1200 ° C, and another air is heated and compressed heat recovery is repeated + Compressed water is accelerated to increase the amount of power generated by three types of turbine blade temperature control turbines can be fully automated Combined engine with various energy storage cycles that collects geothermal heat with a mating bolt assembly drive and a geothermal air heater with the same diameter. タービン翼断面(4X)を17倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 17 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を18倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 18 times the turbine blade cross-section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を19倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 19 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を20倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 20 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を21倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with 21 times the turbine blade cross-section (4X) + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を22倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times the hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + water pumping device (1J) is installed at the corner of the square turbine outer box and water is stored up + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Water can be fully automatically machined with three types of turbine blade temperature control turbines that accelerate acceleration power generation vertically downward Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を23倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times as many hydrogravity geothermal power generation generating turbine blades + plant electrification prime + water pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Accelerates water with superheated steam and fully generates three types of turbine blade temperature controlled turbines that increase power generation Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater as possible with the same diameter and shape as each paragraph. タービン翼断面(4X)を24倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times the hydrogravity geothermal power generation generation equipment method to make all turbine blades + factory electrification prime + water pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を25倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times as many hydrogravity geothermal power generation equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner corner of square turbine and water is stored ascending + Heat generation by compressing geothermal heating air, approaching 1200 degrees, and heating and compressing another air repeatedly. + Water is accelerated downward in contact with the water vertically, and three types of turbine blades with increased power generation are fully automated. Various energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape as each paragraph so that it can be processed. タービン翼断面(4X)を2倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) with double hydrogravity geothermal power generation turbine blade generation method + plant electrification prime + pumping device (1J) is installed at the corner of the square turbine outer box to save water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats recovery of heat by compressing and recovering heat + Fully automatic processing of turbines with three types of turbine blade temperature control that increase water generation by accelerating water and compressing air Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を3倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal power generation turbines with three times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water generation vertically downward Various energy storage cycle coalescing engines that recover the geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, making it possible to fully machine three types of turbine blades with increased temperature control. タービン翼断面(4X)を4倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with four times the turbine blade cross-section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating water with superheated steam Various types of energy storage cycle coalescence engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph, enabling full automatic processing of turbines with temperature control of three types of turbine blades with increased power generation. タービン翼断面(4X)を5倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 5 times the turbine blade cross section (4X) + heat and cold energy use + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を6倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with 6 times the turbine blade cross section (4X) + making hot and cold use prime + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat recovery by heating and compressing heat + accelerating and rolling water vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic machining of turbines with temperature control of three types of turbine blades with increased power generation as contact. タービン翼断面(4X)を7倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with seven times the turbine blade cross section (4X) + making hot and cold use primed + collecting geothermal heat with a geothermal air heater + pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and save water + compressing the geothermal heating air, bringing it closer to 1200 degrees, heating another air and repeating compression heat recovery + accelerating the water with compressed air Three types of turbine blades with increased power generation Temperature control turbines can be fully automatically machined. Various energy storage cycle coalescing engines that collect geothermal heat with a mating bolt assembly drive + geothermal air heater with the same diameter and shape of each paragraph. タービン翼断面(4X)を8倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal power generation turbines with 8 times the turbine blade cross section (4X) + Fully electrified house prime + Pumping device (1J) is a square turbine Installed in the corner of the outer box to save and store water + Compressed geothermal air, heat production close to 1200 degrees and repeated heat and compression heat recovery + Three types of turbine blades that accelerate water generation vertically downward Various energy storage cycle coalescence engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each paragraph to enable fully automatic processing of temperature controlled turbines. タービン翼断面(4X)を9倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with nine times the turbine blade cross section (4X) + full electrification house prime + water pumping device (1J) is a square turbine 3 types of heat production by increasing the amount of power generation by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat compression heat recovery + Accelerating the water with superheated steam Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making turbine blade temperature control turbine fully automatic. タービン翼断面(4X)を10倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat-retaining turbine with a turbine blade cross-section (4X) in multiple stages, and making the whole house electrified + a pumping device (1J) a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を11倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing multiple stages of 11-times hydrogravity geothermal turbines with a turbine blade cross section (4X) + full electrification house prime + pumping device (1J) is a square turbine Installed at the corner of the outer box to save and save water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Increased power generation by accelerating rolling contact with water vertically downward 3 Various energy storage cycle coalescing engine that collects geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, enabling full automatic machining of turbine blades of different types of turbine blades. タービン翼断面(4X)を12倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of hydrogravity geothermal turbines with 12 times the turbine blade cross section (4X) + full electrification house prime + pumping device (1J) is a square turbine 3 types of turbines that increase the power generation amount by compressing the geothermal heating air and bringing it closer to 1200 degrees and repeating the heat recovery by heating and compressing heat recovery + accelerating the water with compressed air Various energy storage cycle coalescing engine that recovers geothermal heat with a mating bolt assembly drive + geothermal air heater, with the same diameter and shape of each stage, making the blade temperature control turbine fully automatic. タービン翼断面(4X)を13倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with 13 times the turbine blade cross section (4X) + accelerating storage battery-powered various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated. + Three types of turbine blade temperature control turbines that increase the amount of accelerated power generation vertically below the water. Combined engine with various energy storage cycles that recovers geothermal heat using a mating bolt assembly drive and a geothermal air heater as the same diameter. タービン翼断面(4X)を14倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times hydrogravity geothermal power generation structure and method + storage battery drive various automobiles prime + water pump (1J) is installed at the corner of the square turbine outer box + water is stored up + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air, and compression heat recovery is repeated + water is accelerated with superheated steam, and three types of turbine blade temperature control turbines with increased power generation can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each shape with the same diameter. タービン翼断面(4X)を15倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) structure and method of 15 times hydrogravity geothermal power generation + storage battery powered various automobiles primed + pumping device (1J) installed at corner corner of rectangular turbine outer casing + water storage + geothermal Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を16倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 16 times + storage battery-powered various automobiles are primed + a water pump (1J) is installed at the corner of the square turbine outer box to save and save water Heat production is compressed close to 1200 degrees, heat production is repeated for another air heating and compression heat recovery + water is accelerated vertically in contact with the bottom vertically and power generation is increased Three types of turbine blade temperature control turbines can be fully automated Various energy storage cycle coalescing engine that collects geothermal heat with mating bolt assembly drive + geothermal air heater as each paragraph has the same diameter and shape. タービン翼断面(4X)を17倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17-fold hydrogravity geothermal power generation structure and method + storage battery driven various automobiles prime + water pump (1J) is installed at the corner of square turbine outer box + water is stored up + geothermal Heat production is compressed and heated close to 1200 ° C, and another air is heated and compressed heat recovery is repeated + Compressed water is accelerated to increase the amount of power generated by three types of turbine blade temperature control turbines can be fully automated Combined engine with various energy storage cycles that collects geothermal heat with a mating bolt assembly drive and a geothermal air heater with the same diameter. タービン翼断面(4X)を18倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Configuration and method of accelerating 18 times the hydrogravity power water vertically down the turbine blade cross section (4X) + geothermally heated air by suction compression heat recovery and turbine with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Three types of turbine blades with accelerated acceleration power generation in the vertically downward direction, capable of fully automatic processing of turbine blade temperature control turbines, and various energy storage cycle coalescence engines that collect geothermal heat with mating bolt assembly drive + geothermal air heaters with the same diameter and shape of each paragraph . タービン翼断面(4X)を19倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating the vertical gravity downward of the turbine blade cross section (4X) 19 times the hydrogravity water + suction heat recovery of the air heated by geothermal heat, and turbine with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Three types of turbine blade temperature control turbines that are accelerated by superheated steam to increase power generation and can be fully automatically machined. Various energy storage cycles to recover geothermal heat with a mating bolt assembly drive and geothermal air heater with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を20倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Configuration and method of accelerating 20 times hydrogravity power generation vertically down turbine blade cross section (4X) + geothermal heating air is recovered by suction compression heat and turbine is heated with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Three types of turbine blade temperature control turbines with increased power generation as an accelerated rolling contact vertically downward Fully automatic processing of turbines with the same diameter and same shape for each stage Retaining geothermal energy with geothermal air heater Cycle coalescence engine. タービン翼断面(4X)を21倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Configuration and method of accelerating 21 times the hydrogravity power generation water vertically down the turbine blade cross section (4X) + geothermally heated air by suction compression heat recovery and turbine with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Three types of turbine blade temperature control turbines with increased power generation as an accelerated rolling contact vertically downward Fully automatic processing of turbines with the same diameter and same shape for each stage Retaining geothermal energy with geothermal air heater Cycle coalescence engine. タービン翼断面(4X)を22倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を圧縮空気加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Configuration and method of accelerating 22 times hydrogravity power generation vertically down turbine blade cross section (4X) + geothermal heating air is recovered by suction compression heat and turbine is heated with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Three types of turbine blades with increased power generation by accelerating compressed air Fully automatic processing of turbine blade temperature controlled turbines Combined with various bolts to drive geothermal heat using geothermal air heaters with assembly bolt assembly drive and geothermal air heater organ. タービン翼断面(4X)を23倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Configuration and method of accelerating 23 times the hydrogravity generated water vertically down the turbine blade cross section (4X) + geothermally heated air by suction compression heat recovery and turbine with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Three types of turbine blades with accelerated acceleration power generation in the vertically downward direction, capable of fully automatic processing of turbine blade temperature control turbines, and various energy storage cycle coalescence engines that collect geothermal heat with mating bolt assembly drive + geothermal air heaters with the same diameter and shape of each paragraph . タービン翼断面(4X)を24倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を過熱蒸気で加速して発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Configuration and method of accelerating the vertical direction of hydrogravity power generation 24 times the turbine blade cross section (4X) + the heat heated by geothermal heat to recover the compressed heat and turbine with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Three types of turbine blade temperature control turbines that are accelerated by superheated steam to increase power generation and can be fully automatically machined. Various energy storage cycles to recover geothermal heat with a mating bolt assembly drive and geothermal air heater with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を25倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電量増大の3種類タービン翼温度管理のタービンを全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動+地熱空気加熱器で地熱を回収する各種エネルギ保存サイクル合体機関。   Configuration and method of accelerating 25 times lower gravity of hydrogravity generated water in the turbine blade cross section (4X) + geothermal heating air is recovered by suction compression heat and turbine is heated with superheated steam (50) and compressed air (28a), respectively Drive + Pumping device (1J) is installed in the corner of the square turbine outer box to save and save water + Compression of geothermal heating air, approaching 1200 degrees, heat production by repeating compression heat recovery by heating another air + water Three types of turbine blade temperature control turbines with increased power generation as an accelerated rolling contact vertically downward Fully automatic processing of turbines with the same diameter and same shape for each stage Retaining geothermal energy with geothermal air heater Cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を1段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage so that they can be fully automatically machined. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を2段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage so that they can be fully automatically machined. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を3段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of combined bolt assembly driven turbines with three stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を4段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of combined bolt assembly drive turbines with 4 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を5段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with combined bolt assembly drive with 5 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を6段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 6 stages etc. and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を7段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and driven with 7 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を8段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of combined bolt assembly drive turbines with 8 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を9段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with combined bolt assembly drive with 9 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を10段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with combined bolt assembly drive with 10 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を11段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of combined bolt assembly drive turbines with 11 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を12段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of combined bolt assembly drive turbines with 12 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を13段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of combined bolt assembly drive turbines with 13 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を14段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of combined bolt assembly drive turbines with 14 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を15段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with combined bolt assembly drive with 15 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を16段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of combined bolt assembly drive turbines with 16 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を17段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of combined bolt assembly drive turbines with 17 stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を18段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of combined bolt assembly drive turbines with 18 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を19段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with combined bolt assembly drive with 19 stages and so on, and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を20段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps to drive three types of combined bolt assembly drive turbines with 20 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を21段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of combined bolt assembly driven turbines with 21 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を22段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with combined bolt assembly drive with 22 stages and so on, and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を23段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and driven with 23 stages or the like and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を24段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and driven with 24 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を25段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven, with 25 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を26段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and driven with 26 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を27段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 3 types of turbines to be assembled and driven with 27 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を28段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven, with 28 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を29段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Combined engine with various energy storage cycles, equipped with generators and heat pumps to drive 3 types of turbines to be assembled and driven, with 29 stages etc. and horizontal axis (1h) at right angles to square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を30段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three kinds of turbines to be assembled and driven with 30 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を31段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 3 types of turbines to be assembled and driven with 31 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を32段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven, with 32 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を33段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production by repeating heating and compression heat recovery + 3 types of turbines driven by assembly and assembly for each blade group Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box and 33 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を34段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production by repeating heating and compression heat recovery + 3 types of turbines driven by assembly and assembly for each blade group Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box at 34 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を35段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production by repeating heating and compression heat recovery + 3 types of turbines driven by assembly and assembly for each blade group Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle of a square turbine outer box and 35 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を36段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production by repeating heating and compression heat recovery + 3 types of turbines driven by assembly and assembly for each blade group Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) having a right angle in a square turbine outer box in 36 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を37段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production by repeating heating and compression heat recovery + 3 types of turbines driven by assembly and assembly for each blade group Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box at 37 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を38段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + Fully automatic processing is possible, and generators that are driven with three stages of fitting bolt assembly driving turbines with 38 stages and the horizontal axis (1h) at right angles to a square turbine outer box, with almost the same diameter for each paragraph. Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を39段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + Fully automatic processing is possible, generators that are driven with three stages of fitting bolt assembly drive turbines with 39 stages, etc. with a horizontal axis (1h) at right angles to a square turbine outer box, with almost the same diameter for each paragraph. Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を40段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + Fully automatic processing is possible, with generators that are driven with three stages of fitting bolt assembly driving turbines with 40 stages and the horizontal axis (1h) at right angles to a square turbine outer box, with almost the same diameter for each paragraph. Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を41段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + Fully automatic processing is possible with the same diameter and approximately the same shape for each paragraph. 3 types of turbines that are assembled and driven to assemble the bolts. Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を42段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + Fully automatic machining is possible with the same diameter and diameter of each paragraph, and three types of turbines to be assembled and driven by assembling bolts. Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を43段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines, 43 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を44段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 44 stages and the horizontal axis (1h) perpendicular to the square turbine outer box at right angles with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を45段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 45 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を46段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven by assembling and driving three types of turbines with 46 stages and the horizontal axis (1h) at right angles to the square turbine outer box Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を47段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by three types of turbines that have 47 stages and a horizontal axis (1h) that has a right angle square outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を48段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 48 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を49段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having a horizontal axis (1h) at right angles to a square turbine outer box in 49 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を50段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 50 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を51段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 51 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を52段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 52 stages and the like. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を53段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 53 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を54段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 54 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を55段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines, 55 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を56段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with three stages of turbines, etc., with a horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を57段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps with 57 horizontal stages (1h) provided at right angles to the square turbine outer box, and three types of turbines that drive the assembly of bolts with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を58段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 58 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を59段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 59 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を60段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 60 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を61段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines for assembly bolt assembly driving with 61 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を62段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 62 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を63段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of turbines driven by assembly bolt assembly 63 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を64段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of fitting bolt assembly drive turbines in 64 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を65段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and approaching 1200 ° C by repeating heating and compression heat recovery. + Fully automatic processing is possible with three stages of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を66段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with three stages of turbines that have the same diameter and the same shape for each stage, assembling bolts, 66 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を67段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with 67 stages of 3 types of turbines that drive the assembly of bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を68段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 68 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を69段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 69 stages, etc., with a horizontal axis (1h) at right angles to the square turbine outer box at the same angle for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を70段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly driving turbines with 70 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box at the same diameter for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を71段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that are assembled with assembling bolts with the same diameter and approximately the same shape for each paragraph, and 71 stages and the horizontal axis (1h) is provided at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を72段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 72 stages and the horizontal axis (1h) at right angles to the square outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を73段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box at 73 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を74段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 74 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を75段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 75 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を76段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 76 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を77段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a rectangular turbine outer box in 77 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を78段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 78 stages and the horizontal axis (1h) at right angles to the square turbine outer box with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を79段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly driving turbines with 79 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を80段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 80 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を81段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with three stages of turbines, etc., with 81 stages and the horizontal axis (1h) at right angles to the rectangular outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を82段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven by three stages of turbines, etc., with 82 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を83段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 83 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を84段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 84 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を85段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 85 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を86段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 86 stages, etc. with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を87段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 87 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を88段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing is possible with three stages of fitting bolt assembly driven turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を89段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, and 3 types of turbines with assembly bolt assembly drive, 89 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を90段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing with the same diameter and the same shape for each paragraph 90 stages of 3 types of fitting bolt assembly drive turbines etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を91段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with 91 stages of 3 types of turbines that are assembled with the same diameter and same shape for each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を92段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with 92 stages of 3 types of turbines to drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を93段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 93 stages, etc., with a horizontal axis (1h) at a right angle of the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を94段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 94 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を95段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 95 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を96段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 96 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を97段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven by three-stage turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 97 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を98段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box at 98 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を99段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box at 99 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を100段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 100 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を101段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescence engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 101 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を102段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescence engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 102 stages and the like. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を103段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 103 stages, etc. with a horizontal axis (1h) perpendicular to a square turbine outer box at right angles, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を104段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 104 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を105段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 105 stages, etc. with a horizontal axis (1h) perpendicular to a square turbine outer box at right angles, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を106段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by assembling bolts with 106 stages and the horizontal axis (1h) at right angles to the rectangular outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を107段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 107 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を108段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 108 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を109段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 109 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を110段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 110 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を111段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 111 stages, etc. with a horizontal axis (1h) at a right angle of the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を112段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive 3 types of turbines to be assembled and fitted with 112 stages, etc. with a horizontal axis (1h) at a right angle of the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を113段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of fitting bolt assembly drive turbines in 113 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を114段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of fitting bolt assembly drive turbines in 114 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を115段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing with the same diameter and the same shape for each paragraph, 3 types of fitting bolt assembly drive turbines in 115 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を116段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with 116 stages of 3 types of turbines that assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を117段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, 117 stages for 3 types of turbines that drive the assembly of bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を118段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 118 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を119段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 119 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box at the same diameter for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を120段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly driving turbines with 120 stages and the horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を1段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that drive three-stage turbines that have the same diameter and substantially the same shape for each paragraph and that are driven in a single stage with a horizontal axis (1h) having a rectangular turbine outer box at right angles Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を2段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three horizontal stages (1h) provided at right angles to a square turbine outer box in two stages, etc., with three stages of fitting bolts assembled and driven with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を3段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in three stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を4段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven in four stages with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を5段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in five stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を6段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in six stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を7段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy conservation cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in seven stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を8段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly driving turbines with eight stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を9段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 9 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box at the same diameter for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を10段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly driving turbines with 10 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を11段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 11 stages and the horizontal axis (1h) at right angles to the rectangular turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を12段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three horizontal stages (1h) provided at right angles to a square turbine outer box with 3 stages of turbines that are driven by assembling bolts with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を13段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 13 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を14段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 14 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を15段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 15 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を16段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 16 stages, etc. with a horizontal axis (1h) having a right angle on the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を17段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 17 stages, etc., with a horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を18段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing is possible with 18 stages of 3 types of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を19段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing is possible with 19 stages of 3 types of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を20段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeatedly collecting heat by compressing and recovering heat + Fully automatic processing is possible with 20 stages of 3 types of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を21段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with 21 stages of 3 types of turbines that drive the assembly of bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を22段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with 22 stages of 3 types of turbines to drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を23段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 23 stages and the horizontal axis (1h) provided at right angles to a square turbine outer box with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を24段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 24 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を25段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 25 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を26段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph, and three stages of turbines that drive assembly with 26 stages and the horizontal axis (1h) at right angles to the square outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を27段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by 27 types of turbines and a horizontal axis (1h) at right angles to the outer casing of the square turbine. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を28段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 28 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を29段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 29 stages and the like. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を30段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 30 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を31段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having a horizontal axis (1h) at right angles to a square turbine outer box in 31 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を32段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 32 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を33段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that have three stages of fitting bolt assembly drive with 33 stages, etc., with a horizontal axis (1h) provided at a right angle to the outer casing of the square turbine. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を34段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines, 34 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を35段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 35 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を36段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three horizontal stages (1h) provided at right angles to a square turbine outer box with 36 stages, etc., with three types of turbines to be assembled and driven with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を37段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph, and three stages of turbines that have 37 stages and a horizontal axis (1h) that has a right angled square outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を38段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 38 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を39段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 39 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を40段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 40 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を41段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 3 types of turbines to be assembled and driven with 41 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を42段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines for assembly bolt assembly driving with 42 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を43段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat and compression heat recovery for other air + Fully automatic processing is possible with three stages of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を44段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of fitting bolt assembly drive turbines in 44 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を45段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing with the same diameter and the same shape for each paragraph, 45 types of 3 types of fitting bolt assembly drive turbine etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を46段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Fully automatic processing is possible with 46 stages of 3 types of turbines that are assembled with the same diameter and same shape for each stage Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を47段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing is possible with 47 stages of 3 types of turbines that drive the assembly of bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を48段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 48 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を49段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 49 stages, etc., with the horizontal axis (1h) at a right angle to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を50段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 50 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を51段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three horizontal stages (1h) provided at right angles to a square turbine outer box with 51 stages, etc., with three types of turbines to be assembled and driven with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を52段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by three stages of turbines, etc., with 52 stages etc. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を53段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 53 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を54段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 54 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を55段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 55 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を56段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 56 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を57段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy conservation cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 57 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を58段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 58 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を59段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 59 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box with the same diameter and substantially the same shape for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を60段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 60 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を61段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by three types of turbines that have 61 stages, etc. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を62段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by three stages of turbines, etc., with 62 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を63段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 63 stages or the like and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を64段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 64 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を65段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 65 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を66段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven by 66 bolts and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を67段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 67 stages, etc. with a horizontal axis (1h) at a right angle to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を68段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, and 3 types of turbines with assembly bolt assembly drive, 68 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を69段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, and three types of turbines with fitting bolt assembly drive, 69 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を70段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing is possible with 70 stages of three types of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を71段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 ° C and repeats heating and compression heat recovery + Fully automatic processing is possible with 71 stages of three types of turbines that drive assembly by fitting bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を72段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, 72 stages of 3 types of turbines that are assembled with the same diameter and shape of each paragraph and assembled bolts are driven Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を73段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 73 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box at the same angle for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を74段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 74 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を75段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 75 stages and the horizontal axis (1h) at right angles to the square turbine outer box with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を76段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph, and that are driven by three stages of 76 turbines, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を77段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape for each paragraph and driving three types of turbines with 77 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を78段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 78 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を79段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 79 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を80段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box at 80 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を81段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 81 stages or the like. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を82段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 82 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を83段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines, 83 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を84段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 84 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を85段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 85 stages, etc., with a horizontal axis (1h) perpendicular to a square turbine outer box at right angles, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を86段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by three types of turbines with 86 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を87段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven by three stages of turbines with 87 stages and the horizontal axis (1h) at right angles to the square outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を88段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 88 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を89段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 89 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を90段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 90 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を91段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 91 stages, etc. with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を92段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 92 stages, etc. with a horizontal axis (1h) at a right angle to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を93段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, three types of fitting bolt assembly drive turbines in 93 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を94段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat recovery by heat and compression recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of turbines driven by assembly bolt assembly 94 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を95段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 95 types of 3 types of fitting bolt assembly drive turbines, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を96段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Fully automatic processing allows 96 stages of 3 types of turbines to be assembled and driven with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を97段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing allows 97 stages of 3 types of turbines to be assembled and driven by fitting bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を98段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 98 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box at the same diameter for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を99段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 99 stages and the horizontal axis (1h) at right angles to the square turbine outer box with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を100段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 100 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box at the same diameter for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を101段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by three stages of turbines that have 101 stages and the horizontal axis (1h) is provided at right angles to the square turbine outer box Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を102段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 102 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を103段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box at 103 stages or the like. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を104段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box at 104 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を105段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box at 105 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を106段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) perpendicular to a square turbine outer box at 106 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を107段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a 107-stage horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を108段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 108 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を109段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 109 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を110段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 110 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を111段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 111 stages and the horizontal axis (1h) at right angles to the rectangular outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を112段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph, and 112 stages, etc., with a horizontal axis (1h) provided at a right angle to the outer casing of the square turbine. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を113段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 113 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を114段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing a multi-stage hydrogravity geothermal turbine with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 114 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を115段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly driven turbines with 115 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を116段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines for assembly bolt assembly driving with 116 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を117段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 117 stages, etc. with a horizontal axis (1h) at a right angle to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を118段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing is possible with three stages of fitting bolt assembly drive turbines with the same diameter for each paragraph and 118 stages Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を119段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 119 stages of 3 types of fitting bolt assembly drive turbines, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を120段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing is possible with three stages of fitting bolt assembly drive turbines with the same diameter and the same shape for each stage Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を1段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, and 3 types of turbines that drive assembly bolt assembly, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を2段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Fully automatic processing is possible with two stages of 3 types of turbines that assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescence engines provided with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を3段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator and a heat pump are provided to drive fully automatic machining with three stages of fitting bolt assembly driving turbines with the same diameter and same shape for each stage, three stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を4段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator and a heat pump are installed that can drive fully automatic machining, with the same diameter and shape of each paragraph, and three types of turbines for assembly bolt assembly drive in four stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を5段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator and a heat pump are provided to drive fully automatic machining, with the same diameter and shape of each paragraph, and three types of fitting bolt assembly drive turbines with 5 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box at right angles. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を6段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator and heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage in a fully automatic form, with 6 stages, etc., and a horizontal axis (1h) perpendicular to the square turbine outer box are installed. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を7段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage and are equipped with 7 stages, etc., and the horizontal axis (1h) is perpendicular to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を8段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator and a heat pump are installed that can drive fully automatic machining, with the same diameter and shape of each paragraph, and 3 types of fitting bolt assembly drive turbines with 8 stages, etc., and a horizontal axis (1h) with a rectangular turbine outer box at right angles. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を9段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator and a heat pump are provided that are driven by three-stage fitting bolt assembly drive turbines with nine stages, etc., with a horizontal axis (1h) perpendicular to a square turbine outer box at right angles so that they can be fully automated. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を10段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator and a heat pump are installed that can be machined automatically and have three stages with the same diameter and the same shape for each stage and are equipped with three types of fitting bolt assembly drive turbines with 10 stages etc. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を11段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + Provided with generator and heat pump to drive 3 types of turbines that have the same diameter and almost the same shape for each stage, 11 stages, etc. and the horizontal axis (1h) is perpendicular to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を12段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + Provided with generator and heat pump to drive 3 types of turbines to be assembled and fitted assembling bolts with the same diameter and almost the same shape for each stage in 12 stages, etc. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を13段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of combined bolt assembly drive turbines with 13 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を14段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of combined bolt assembly drive turbines with 14 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を15段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with combined bolt assembly drive with 15 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を16段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating storage battery-powered vessels + pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 16 stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を17段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating storage battery-powered vessels + pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and assembled with 17 stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を18段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of combined bolt assembly drive turbines with 18 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を19段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with combined bolt assembly drive with 19 stages and so on, and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を20段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps to drive three types of combined bolt assembly drive turbines with 20 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を21段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of combined bolt assembly driven turbines with 21 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を22段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with combined bolt assembly drive with 22 stages and so on, and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を23段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating storage battery-powered vessels + pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines driven by a combination bolt assembly with 23 stages or the like and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を24段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of combined bolt assembly drive turbines with 24 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を25段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of combined bolt assembly drive turbines with 25 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を26段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of combined bolt assembly driven turbines with 26 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を27段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with combined bolt assembly drive with 27 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を28段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of combined bolt assembly drive turbines with 28 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を29段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with a combination bolt assembly drive with 29 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を30段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of combined bolt assembly drive turbines with 30 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を31段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of combined bolt assembly drive turbines with 31 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を32段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines driven by a combination bolt assembly with 32 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を33段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 33 stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を34段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive 3 types of turbines that are assembled and driven with 34 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を35段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 35 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を36段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 36 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を37段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven, with 37 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を38段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven, with 38 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を39段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive 3 types of turbines to be assembled and driven with 39 stages, etc., and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を40段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and driven with 40 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を41段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 41 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を42段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven, with 42 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を43段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production by repeating heating and compression heat recovery + 3 types of turbines driven by assembly and assembly for each blade group Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) having a right angle of square turbine outer box and 43 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を44段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production by repeating heating and compression heat recovery + 3 types of turbines driven by assembly and assembly for each blade group Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) having a right angle on the square turbine outer box and 44 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を45段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production by repeating heating and compression heat recovery + 3 types of turbines driven by assembly and assembly for each blade group Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を46段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production by repeating heating and compression heat recovery + 3 types of turbines driven by assembly and assembly for each blade group Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) having a right angle of square turbine outer box and 46 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を47段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production by repeating heating and compression heat recovery + 3 types of turbines driven by assembly and assembly for each blade group Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box at 47 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を48段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + Fully automatic processing is possible, with generators that are driven with three stages of turbines with the same diameter and same shape for each stage, with 48 types of fitting bolt assembly drive turbines and horizontal axis (1h) at right angles to the square turbine outer box Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を49段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + Fully automatic processing is possible with a generator that drives with three stages of fitting bolt assembly drive with 49 stages, etc. with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter for each paragraph. Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を50段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + Fully automatic processing is possible, and the generator is driven with three stages of fitting bolt assembly drive turbines with 50 stages and the horizontal axis (1h) at right angles to the square turbine outer box so that it can be fully automated. Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を51段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + Fully automatic processing is possible with generators that are equipped with 3 stages of turbines that are assembled with assembling bolts with the same diameter and the same shape for each stage and 51 stages and the horizontal axis (1h) is provided at right angles to the square turbine outer box. Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を52段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + Fully automatic machining is possible with three stages of turbines to be assembled and fitted with assembling bolts with the same diameter and the same shape for each stage. Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を53段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 53 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を54段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 54 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を55段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines, 55 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を56段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with three stages of turbines, etc., with a horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を57段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps with 57 horizontal stages (1h) provided at right angles to the square turbine outer box, and three types of turbines that drive the assembly of bolts with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を58段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box at 58 stages or the like. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を59段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box at 59 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を60段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 60 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を61段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 61 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を62段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 62 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を63段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly driving turbines with 63 stages, etc., with the horizontal axis (1h) at a right angle to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を64段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 64 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を65段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 65 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box at the same diameter for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を66段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three horizontal stages (1h) provided at right angles to a square turbine outer box with three stages of turbines for driving assembly of fitting bolts with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を67段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven by three-stage turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 67 stages, etc., and a horizontal axis (1h) with a square turbine outer box at right angles. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を68段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing a multi-stage hydrogravity geothermal turbine with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that are driven by three types of fitting bolt assembly drive turbines with 68 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を69段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 69 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を70段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing a multi-stage hydrogravity geothermal turbine with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 70 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を71段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and fitted with 71 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を72段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 72 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を73段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of turbines driven by assembly bolt assembly 73 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を74段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery. + Fully automatic processing is possible with the same diameter and shape of each paragraph, and three types of turbines with assembly bolt assembly drive, 74 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を75段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing is possible with the same diameter and shape of each paragraph, and 3 types of turbines with assembly bolt assembly drive, 75 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を76段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with 76 stages of 3 types of turbines that drive the assembly of assembling bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を77段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, and 3 types of turbines that drive assembly bolt assembly 77 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を78段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 78 stages and the horizontal axis (1h) at right angles to the square turbine outer box with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を79段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly driving turbines with 79 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を80段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 80 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を81段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with three stages of turbines, etc., with 81 stages and the horizontal axis (1h) at right angles to the rectangular outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を82段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven by three stages of turbines, etc., with 82 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を83段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a rectangular turbine outer box in 83 stages or the like. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を84段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 84 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を85段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 85 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を86段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 86 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を87段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 87 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を88段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 88 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box at right angles, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を89段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 89 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を90段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines, 90 stages, etc., with a horizontal axis (1h) at a right angle to the outer casing of the square turbine, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を91段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 91 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を92段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 92 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を93段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 93 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を94段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 94 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を95段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that are driven by three types of fitting bolt assembly driving turbines with 95 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を96段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 96 bolts and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を97段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 97 stages, etc. with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を98段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing is possible with three stages of fitting bolt assembly drive turbines with the same diameter and the same shape for each stage Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を99段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and the same shape for each paragraph, 99 types of 3 types of fitting bolt assembly drive turbines, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を100段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing is possible with 100 stages of 3 types of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を101段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with 101 stages of 3 types of turbines that are assembled and driven by fitting bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を102段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with 102 stages of 3 types of turbines to drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を103段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 103 stages, etc. with a horizontal axis (1h) perpendicular to a square turbine outer box at right angles, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を104段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 104 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を105段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 105 stages, etc. with a horizontal axis (1h) perpendicular to a square turbine outer box at right angles, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を106段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by assembling bolts with 106 stages and the horizontal axis (1h) at right angles to the rectangular outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を107段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 107 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を108段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 108 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を109段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box at 109 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を110段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) perpendicular to the square turbine outer box at 110 stages and the like. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を111段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box at 111 stages and the like. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を112段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescence engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) perpendicular to a square turbine outer box at 112 stages or the like. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を113段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolts assembly drive turbines with 113 stages and the horizontal axis (1h) perpendicular to the square turbine outer box at right angles with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を114段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines having 114 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を115段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 115 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を116段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that have three stages of 116 bolts and a horizontal axis (1h) that has a square turbine outer box at right angles. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を117段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph, and are driven with 117 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を118段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 118 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を119段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 119 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を120段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 120 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を1段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with one stage and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を2段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with two stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を3段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing is possible with three stages of 3 types of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を4段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of fitting bolt assembly drive turbines in 4 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を5段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing is possible with three stages of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を6段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery. + Fully automatic processing is possible with three stages of turbines that are assembled with assembling bolts with the same diameter and shape of each paragraph. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を7段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing is possible with seven stages of three types of turbines that drive the assembly of bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を8段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly driving turbines with eight stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を9段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 9 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box at the same diameter for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を10段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly driving turbines with 10 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を11段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 11 stages and the horizontal axis (1h) at right angles to the rectangular turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を12段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three horizontal stages (1h) provided at right angles to a square turbine outer box with 3 stages of turbines that are driven by assembling bolts with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を13段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 13 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を14段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 14 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を15段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) perpendicular to a square turbine outer box at 15 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を16段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) perpendicular to the square turbine outer box at 16 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を17段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 17 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を18段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 18 stages, etc. with a horizontal axis (1h) perpendicular to a square turbine outer box at right angles, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を19段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 19 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を20段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines, 20 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を21段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 21 stages or the like and a horizontal axis (1h) at a right angle to the outer casing of the square turbine. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を22段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with 3 stages of turbines that have the same diameter and substantially the same shape for each paragraph, and 22 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を23段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 23 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を24段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 24 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を25段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 25 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を26段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 26 stages, etc. with a horizontal axis (1h) having a right angle on the outer casing of a square turbine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を27段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 27 stages, etc. with a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を28段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing is possible with 28 stages of 3 types of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を29段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing with the same diameter and the same shape for each paragraph, 29 types of turbines with assembly bolt assembly drive, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を30段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, 30 stages of 3 types of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を31段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat recovery by heat and compression + Fully automatic processing is possible with 31 stages of 3 types of turbines that drive assembly by fitting bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を32段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat recovery by heat and compression + Third stages of 3 types of turbines to drive assembly bolts with the same diameter and the same shape for each paragraph to enable full automatic processing Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を33段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that have three stages of fitting bolt assembly drive with 33 stages, etc., with a horizontal axis (1h) provided at a right angle to the outer casing of the square turbine. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を34段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines, 34 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を35段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 35 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を36段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three horizontal stages (1h) provided at right angles to a square turbine outer box with 36 stages, etc., with three types of turbines to be assembled and driven with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を37段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph, and three stages of turbines that have 37 stages and a horizontal axis (1h) that has a right angled square outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を38段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 38 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を39段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a 39-stage horizontal axis (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を40段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 40 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を41段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 41 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を42段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescence engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 42 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を43段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines, 43 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を44段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 44 stages and the horizontal axis (1h) perpendicular to the square turbine outer box at right angles with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を45段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 45 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を46段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven by assembling and driving three types of turbines with 46 stages and the horizontal axis (1h) at right angles to the square turbine outer box Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を47段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by three types of turbines that have 47 stages and a horizontal axis (1h) that has a right angle square outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を48段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that are driven by three types of fitting bolt assembly drive turbines with 48 stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を49段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 49 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を50段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 50 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を51段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 51 stages, etc. with a horizontal axis (1h) at a right angle to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を52段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 52 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を53段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of fitting bolt assembly drive turbines in 53 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を54段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing is possible with three stages of fitting bolt assembly drive turbines with the same diameter and the same shape for each stage Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を55段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat recovery by heating and compressing heat recovery + Fully automatic processing with the same diameter and the same shape for each paragraph 55 types of 3 types of turbines with assembly bolt assembly drive Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を56段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 ° C and repeats heating and compression heat recovery + Fully automatic processing is possible with three stages of turbines that have the same diameter and the same shape for each stage, as well as 56 types of turbines Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を57段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing is possible with 57 stages of 3 types of turbines that assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を58段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 58 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を59段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 59 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box with the same diameter and substantially the same shape for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を60段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 60 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を61段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by three types of turbines that have 61 stages, etc. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を62段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by three stages of turbines, etc., with 62 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を63段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 63 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を64段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 64 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を65段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box at 65 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を66段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) having a right angle on the square turbine outer box in 66 stages and the like. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を67段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 67 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を68段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 68 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を69段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 69 stages, etc., with a horizontal axis (1h) at right angles to the square turbine outer box at the same angle for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を70段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly driving turbines with 70 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box at the same diameter for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を71段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that are assembled with assembling bolts with the same diameter and approximately the same shape for each paragraph, and 71 stages and the horizontal axis (1h) is provided at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を72段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 72 stages and the horizontal axis (1h) at right angles to the square outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を73段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that are driven by three types of fitting bolt assembly drive turbines with 73 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を74段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing a multi-stage hydrogravity geothermal turbine with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 74 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を75段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing a multi-stage hydrogravity geothermal turbine with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 75 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を76段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 76 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を77段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing a multi-stage hydrogravity geothermal turbine with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 77 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を78段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing is possible with the same diameter and shape of each paragraph, and 3 types of turbines with assembly bolt assembly drive, 78 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を79段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of turbines driven by assembly bolt assembly 79 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を80段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and approaching 1200 ° C by repeating heating and compression heat recovery. + Fully automatic processing is possible with 80 stages of 3 types of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を81段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing is possible with three stages of turbines that are assembled with the same diameter and the same shape for each paragraph, and 81 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を82段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing is possible with three stages of turbines that drive the assembly of bolts with the same diameter and shape of each paragraph. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を83段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines, 83 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を84段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 84 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を85段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 85 stages, etc., with a horizontal axis (1h) perpendicular to a square turbine outer box at right angles, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を86段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by three types of turbines with 86 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を87段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven by three stages of turbines with 87 stages and the horizontal axis (1h) at right angles to the square outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を88段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having a horizontal axis (1h) at right angles to a square turbine outer box at 88 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を89段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 89 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を90段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a 90-degree horizontal axis (1h) provided at a right angle to the rectangular turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を91段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven by having a horizontal axis (1h) at right angles to a square turbine outer box in 91 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を92段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) perpendicular to the square turbine outer box at 92 stages and so on. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を93段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 93 stages, etc., with a horizontal axis (1h) at a right angle of the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を94段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 94 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を95段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 95 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を96段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 96 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を97段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven by three-stage turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 97 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を98段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 98 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を99段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 99 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を100段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 100 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を101段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing a multi-stage hydrogravity geothermal turbine with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 101 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を102段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 102 stages, etc. with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を103段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing is possible with 103 stages of 3 types of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を104段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of turbines driven by assembly bolt assembly 104 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を105段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing with 105 parts in 3 stages of fitting bolt assembly drive with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を106段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing is possible with 106 stages of 3 types of turbines that drive the assembly of bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を107段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat and compression heat recovery for another air + 107 stages for 3 types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を108段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 108 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を109段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 109 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を110段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 110 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を111段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 111 stages and the horizontal axis (1h) at right angles to the rectangular outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を112段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph, and 112 stages, etc., with a horizontal axis (1h) provided at a right angle to the outer casing of the square turbine. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を113段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box at 113 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を114段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box at 114 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を115段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box at 115 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を116段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box at 116 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を117段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy conservation cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box at 117 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を118段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 118 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を119段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 119 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box at the same diameter for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を120段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly driving turbines with 120 stages and the horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を1段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that drive three-stage turbines that have the same diameter and substantially the same shape for each paragraph and that are driven in a single stage with a horizontal axis (1h) having a rectangular turbine outer box at right angles Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を2段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three horizontal stages (1h) provided at right angles to a square turbine outer box in two stages, etc., with three stages of fitting bolts assembled and driven with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を3段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines for fitting bolt assembly driving in three stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を4段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive 3 types of fitting bolt assembly drive turbines with 4 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を5段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines for assembly bolt assembly drive with 5 stages etc. and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を6段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 6 bolts, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を7段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 7 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を8段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat and compression heat recovery for another air + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of turbines driven by assembly bolt assembly, 8 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を9段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and almost the same shape for each paragraph, 9 types of turbines driven by assembly bolt assembly 9 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を10段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of turbines driven by assembly bolt assembly, 10 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を11段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat recovery by heating and compression heat recovery + 11 stages of 3 types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を12段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Fully automatic processing is possible with 12 stages of 3 types of turbines that are assembled and driven by fitting bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電海水温度上昇0CO2排気僅少で発電量増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を13段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times hydrogravity geothermal power generation Seawater temperature rise 0CO2 exhaust is small and power generation is increased + pumping equipment (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal heating Heat is compressed close to 1200 degrees, heat is compressed and heat recovery is repeated for another air + Fully automatic processing is possible, and each stage has the same diameter and the same shape. Various energy storage cycle coalescing engines provided with a generator and heat pump that drive (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電海水温度上昇0CO2排気僅少で発電量増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を14段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times hydrogravity geothermal power generation Seawater temperature rise 0CO2 exhaust is small and power generation is increased + pumping equipment (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal heating Heat is compressed close to 1200 degrees, and another air is heated and compressed heat recovery is repeated. + Fully automatic processing is possible. Each stage has the same diameter and approximately the same shape. Various energy storage cycle coalescing engines provided with a generator and heat pump that drive (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電海水温度上昇0CO2排気僅少で発電量増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を15段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times hydrogravity geothermal power generation Seawater temperature rise 0CO2 exhaust is small and power generation is increased + pumping equipment (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal heating Heat is compressed close to 1200 degrees, and another air is heated and compressed heat recovery is repeated. + Fully automatic processing is possible. Each stage has the same diameter and approximately the same shape. Various energy storage cycle coalescing engines provided with a generator and heat pump that drive (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電海水温度上昇0CO2排気僅少で発電量増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を16段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times hydrogravity geothermal power generation Seawater temperature rise 0CO2 exhaust is small and power generation is increased + pumping equipment (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal heating Compressed air is heated close to 1200 ° C, and another air is heated and compressed heat recovery is repeated. Heat production + Fully automatic processing is possible. Various energy storage cycle coalescing engines provided with a generator and heat pump that drive (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電海水温度上昇0CO2排気僅少で発電量増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を17段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) is 2 to 26 times hydrogravity geothermal power generation Seawater temperature rise 0CO2 exhaust is small and power generation is increased + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal heating The heat is compressed close to 1200 degrees and heat is compressed and heat recovery is repeated for another air. + Fully automatic processing is possible. Various energy storage cycle coalescing engines provided with a generator and heat pump that drive (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を18段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 18 stages, etc. with a horizontal axis (1h) perpendicular to a square turbine outer box at right angles, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を19段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 19 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を20段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines, 20 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を21段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 21 stages or the like and a horizontal axis (1h) at a right angle to the outer casing of the square turbine. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を22段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with 3 stages of turbines that have the same diameter and substantially the same shape for each paragraph, and 22 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を23段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 23 stages and the horizontal axis (1h) provided at right angles to a square turbine outer box with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を24段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 24 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を25段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 25 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を26段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph, and three stages of turbines that drive assembly with 26 stages and the horizontal axis (1h) at right angles to the square outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を27段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by 27 types of turbines and a horizontal axis (1h) at right angles to the outer casing of the square turbine. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を28段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of combined bolt assembly drive turbines with 28 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を29段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with a combination bolt assembly drive with 29 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を30段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of combined bolt assembly drive turbines with 30 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を31段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 3 types of turbines to be assembled and driven with 31 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を32段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven, with 32 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を33段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive 3 types of turbines with combined bolt assembly drive with 33 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を34段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive 3 types of combined bolt assembly drive turbines with 34 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を35段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with a combination bolt assembly drive with 35 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を36段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with a combination bolt assembly drive with 36 stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を37段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with a combination bolt assembly drive, with 37 stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を38段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive 3 types of turbines with combined bolt assembly drive with 38 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を39段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with a combination bolt assembly drive with 39 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を40段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive 3 types of turbines with combined bolt assembly drive with 40 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を41段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines driven by a combination bolt assembly with 41 stages and the horizontal axis (1h) at a right angle of the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を42段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps to drive three types of combined bolt assembly drive turbines with 42 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を43段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines driven by a combination bolt assembly with 43 stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を44段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive 3 types of turbines with combined bolt assembly drive with 44 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を45段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines driven by a combination bolt assembly with 45 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を46段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of combined bolt assembly drive turbines with 46 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を47段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines that are driven by assembling bolts with 47 stages and the horizontal axis (1h) having a right angle on the outer casing of the square turbine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を48段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Combined engine with various energy storage cycles equipped with generators and heat pumps to drive 3 types of turbines to be assembled and driven with 48 stages etc. with horizontal axis (1h) at right angles to square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を49段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and assembled with 49 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を50段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 50 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を51段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 51 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を52段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and driven with 52 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を53段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven, with 53 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を54段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + accelerating the storage battery drive + various pumping vessels (1J) square type Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 54 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を55段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled and driven with 55 stages and the horizontal axis (1h) at a right angle of the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を56段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 56 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を57段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 57 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を58段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production by repeating heating and compression heat recovery + 3 types of turbines driven by assembly and assembly for each blade group Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a 58-stage horizontal axis (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を59段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production by repeating heating and compression heat recovery + 3 types of turbines driven by assembly and assembly for each blade group Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) having a right angle on the square turbine outer box and 59 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を60段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production by repeating heating and compression heat recovery + 3 types of turbines driven by assembly and assembly for each blade group Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box and 60 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を61段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production by repeating heating and compression heat recovery + 3 types of turbines driven by assembly and assembly for each blade group Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) having a right angle on the square turbine outer box in 61 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を62段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production by repeating heating and compression heat recovery + 3 types of turbines driven by assembly and assembly for each blade group Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) having a right angle on the square turbine outer box in 62 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を63段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + Fully automatic processing is possible, with generators that are driven with three stages of fitting bolt assembly drive turbines with 63 stages and the horizontal axis (1h) at right angles to a square turbine outer box so that it can be fully automated. Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を64段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + Fully automatic processing is possible, generators that are driven with three stages of fitting bolt assembly driving turbines with 64 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を65段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + Fully automatic processing is possible, with generators that are driven with three stages of fitting bolt assembly drive turbines with 65 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box so that they can be fully automated. Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を66段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + Fully automatic processing is possible with three stages of turbines to be assembled and fitted with assembling bolts with almost the same diameter for each stage 66 generators, etc. with a horizontal axis (1h) at right angles to a square turbine outer box Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を67段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + Fully automatic processing is possible with generators that are driven with three stages of turbines that have the same diameter and substantially the same shape for each assembly bolt assembling bolts, 67 stages, etc., and a horizontal axis (1h) with a square turbine outer box at right angles. Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を68段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 68 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を69段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 69 stages, etc., with a horizontal axis (1h) at right angles to the square turbine outer box at the same angle for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を70段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly driving turbines with 70 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box at the same diameter for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を71段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that are assembled with assembling bolts with the same diameter and approximately the same shape for each paragraph, and 71 stages and the horizontal axis (1h) is provided at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を72段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 72 stages and the horizontal axis (1h) at right angles to the square outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を73段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating turbine blade method + power increase sphere (2E) is accelerated with a small diameter + geothermal heating air is compressed to 1200 degrees Heat production that repeats heating and compression heat recovery for near-by-close air + Fully automatic processing is possible, and each stage has the same diameter and approximately the same shape. Three types of fitting bolt assembly drive turbines are arranged in 73 stages, etc. The horizontal axis (1h) is a square turbine outer box. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を74段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating turbine blade method + power increase sphere (2E) is accelerated with a small diameter + geothermal heating air is compressed to 1200 degrees Heat production that repeats heating and compression heat recovery for near-by-close air + Fully automatic processing is possible, and each stage has the same diameter and approximately the same shape. Three types of fitting bolt assembly drive turbines are arranged in 74 stages, etc. The horizontal axis (1h) is a square turbine outer box. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を75段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating turbine blade method + power increase sphere (2E) is accelerated with a small diameter + geothermal heating air is compressed to 1200 degrees Heat production that repeats heating and compression heat recovery for near-by-close air + Fully automatic processing is possible, and each stage has the same diameter and approximately the same shape. Three types of fitting bolt assembly drive turbines have 75 stages and the horizontal axis (1h) is a square turbine outer box. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を76段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating turbine blade method + power increase sphere (2E) is accelerated with a small diameter + geothermal heating air is compressed to 1200 degrees Heat production that repeats heating and compression heat recovery for near-by-close air + Fully automatic processing is possible with three stages of turbines that are assembled with assembling bolts with the same diameter and the same shape for each paragraph. The horizontal axis (1h) is a square turbine outer box with 76 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+出力増大球(2E)を小径として加速する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を77段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating turbine blade method + power increase sphere (2E) is accelerated with a small diameter + geothermal heating air is compressed to 1200 degrees Heat production that repeats heating and compression heat recovery for near-by-close air + Fully automatic processing is possible with three stages of turbines that are assembled with assembling bolts with the same diameter and diameter of each paragraph. The horizontal axis (1h) is a square turbine outer box with 77 stages. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+出力増大球(2E)を小径として加速タービン駆動する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を78段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing water gravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times in multiple stages + Accelerated turbine drive with a small diameter of the output increasing sphere (2E) + Geothermal heating Heat production close to 1200 degrees, heat production is repeated for another air, heat and compression heat recovery is repeated + full automatic processing is possible, and each stage has the same diameter and the same shape, and the three types of fitting bolt assembly drive turbines are arranged in 78 stages etc. 1h) Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a rectangular turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+出力増大球(2E)を小径として加速タービン駆動する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を79段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing water gravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times in multiple stages + Accelerated turbine drive with a small diameter of the output increasing sphere (2E) + Geothermal heating Heat production by compressing air and approaching 1200 ° C by repeating heating and compressing heat recovery + Fully automatic processing, making each stage the same diameter and approximately the same shape, and 3 types of turbines for fitting bolt assembly drive to 79 stages etc. 1h) Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a rectangular turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+出力増大球(2E)を小径として加速タービン駆動する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を80段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing water gravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times in multiple stages + Accelerated turbine drive with a small diameter of the output increasing sphere (2E) + Geothermal heating Heat production by compressing air and approaching 1200 degrees by heating and regenerating heat by compressing and recovering heat + Fully automatic processing is possible. 1h) Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a rectangular turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+出力増大球(2E)を小径として加速タービン駆動する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を81段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing water gravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times in multiple stages + Accelerated turbine drive with a small diameter of the output increasing sphere (2E) + Geothermal heating Heat production that compresses air to 1200 degrees and repeats heating and compression heat recovery for another air + Fully automatic processing is possible with three stages of turbines that drive the assembly bolt assembling bolts with the same diameter and the same shape for each paragraph. 1h) Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a rectangular turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+出力増大球(2E)を小径として加速タービン駆動する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を82段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing water gravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times in multiple stages + Accelerated turbine drive with a small diameter of the output increasing sphere (2E) + Geothermal heating Heat production by compressing air and approaching 1200 ° C by repeating heating and compression heat recovery + Fully automatic processing The same diameter and diameter of each paragraph can be set to approximately the same shape. 1h) Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a rectangular turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を83段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 83 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を84段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 84 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を85段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 85 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を86段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 86 stages, etc. with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を87段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 87 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を88段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing is possible with three stages of fitting bolt assembly driven turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を89段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, and 3 types of turbines with assembly bolt assembly drive, 89 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を90段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing with the same diameter and the same shape for each paragraph 90 stages of 3 types of fitting bolt assembly drive turbines etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を91段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with 91 stages of 3 types of turbines that are assembled with the same diameter and same shape for each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を92段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with 92 stages of 3 types of turbines to drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を93段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 93 stages, etc., with a horizontal axis (1h) at a right angle of the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を94段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 94 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を95段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 95 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を96段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 96 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を97段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven by three-stage turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 97 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を98段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box at 98 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を99段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box at 99 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を100段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 100 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を101段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescence engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 101 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を102段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescence engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 102 stages and the like. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を103段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 103 stages, etc. with a horizontal axis (1h) perpendicular to a square turbine outer box at right angles, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を104段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 104 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を105段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 105 stages, etc. with a horizontal axis (1h) perpendicular to a square turbine outer box at right angles, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を106段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by assembling bolts with 106 stages and the horizontal axis (1h) at right angles to the rectangular outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を107段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 107 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を108段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 108 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を109段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 109 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を110段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 110 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を111段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 111 stages, etc. with a horizontal axis (1h) at a right angle of the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を112段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive 3 types of turbines to be assembled and fitted with 112 stages, etc. with a horizontal axis (1h) at a right angle of the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を113段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of fitting bolt assembly drive turbines in 113 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を114段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of fitting bolt assembly drive turbines in 114 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を115段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing with the same diameter and the same shape for each paragraph, 3 types of fitting bolt assembly drive turbines in 115 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を116段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with 116 stages of 3 types of turbines that assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を117段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, 117 stages for 3 types of turbines that drive the assembly of bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を118段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 118 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を119段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 119 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box at the same diameter for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を120段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly driving turbines with 120 stages and the horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を1段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that drive three-stage turbines that have the same diameter and substantially the same shape for each paragraph and that are driven in a single stage with a horizontal axis (1h) having a rectangular turbine outer box at right angles Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を2段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three horizontal stages (1h) provided at right angles to a square turbine outer box in two stages, etc., with three stages of fitting bolts assembled and driven with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を3段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in three stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を4段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven in four stages with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を5段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in five stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を6段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in six stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を7段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy conservation cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in seven stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を8段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly driving turbines with eight stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を9段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 9 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box at the same diameter for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を10段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly driving turbines with 10 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を11段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 11 stages and the horizontal axis (1h) at right angles to the rectangular turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を12段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three horizontal stages (1h) provided at right angles to a square turbine outer box with 3 stages of turbines that are driven by assembling bolts with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を13段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 13 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を14段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 14 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を15段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 15 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を16段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 16 stages, etc. with a horizontal axis (1h) having a right angle on the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を17段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 17 stages, etc., with a horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を18段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing is possible with 18 stages of 3 types of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を19段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing is possible with 19 stages of 3 types of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を20段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeatedly collecting heat by compressing and recovering heat + Fully automatic processing is possible with 20 stages of 3 types of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を21段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with 21 stages of 3 types of turbines that drive the assembly of bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を22段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with 22 stages of 3 types of turbines to drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を23段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 23 stages and the horizontal axis (1h) provided at right angles to a square turbine outer box with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を24段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 24 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を25段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 25 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を26段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph, and three stages of turbines that drive assembly with 26 stages and the horizontal axis (1h) at right angles to the square outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を27段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by 27 types of turbines and a horizontal axis (1h) at right angles to the outer casing of the square turbine. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を28段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 28 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を29段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 29 stages and the like. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を30段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 30 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を31段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having a horizontal axis (1h) at right angles to a square turbine outer box in 31 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を32段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 32 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を33段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that have three stages of fitting bolt assembly drive with 33 stages, etc., with a horizontal axis (1h) provided at a right angle to the outer casing of the square turbine. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を34段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines, 34 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を35段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 35 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を36段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three horizontal stages (1h) provided at right angles to a square turbine outer box with 36 stages, etc., with three types of turbines to be assembled and driven with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を37段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph, and three stages of turbines that have 37 stages and a horizontal axis (1h) that has a right angled square outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を38段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 38 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を39段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 39 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を40段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 40 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を41段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 3 types of turbines to be assembled and driven with 41 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を42段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines for assembly bolt assembly driving with 42 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を43段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat and compression heat recovery for other air + Fully automatic processing is possible with three stages of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を44段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of fitting bolt assembly drive turbines in 44 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を45段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing with the same diameter and the same shape for each paragraph, 45 types of 3 types of fitting bolt assembly drive turbine etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を46段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Fully automatic processing is possible with 46 stages of 3 types of turbines that are assembled with the same diameter and same shape for each stage Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を47段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing is possible with 47 stages of 3 types of turbines that drive the assembly of bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を48段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 48 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を49段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 49 stages, etc., with the horizontal axis (1h) at a right angle to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を50段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 50 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を51段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three horizontal stages (1h) provided at right angles to a square turbine outer box with 51 stages, etc., with three types of turbines to be assembled and driven with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を52段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by three stages of turbines, etc., with 52 stages etc. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を53段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 53 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を54段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 54 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を55段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 55 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を56段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 56 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を57段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy conservation cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 57 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を58段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 58 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を59段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 59 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box with the same diameter and substantially the same shape for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を60段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 60 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を61段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by three types of turbines that have 61 stages, etc. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を62段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by three stages of turbines, etc., with 62 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を63段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 63 stages or the like and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を64段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 64 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を65段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 65 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を66段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven by 66 bolts and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を67段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 67 stages, etc. with a horizontal axis (1h) at a right angle to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を68段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, and 3 types of turbines with assembly bolt assembly drive, 68 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を69段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, and three types of turbines with fitting bolt assembly drive, 69 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を70段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing is possible with 70 stages of three types of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を71段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 ° C and repeats heating and compression heat recovery + Fully automatic processing is possible with 71 stages of three types of turbines that drive assembly by fitting bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を72段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, 72 stages of 3 types of turbines that are assembled with the same diameter and shape of each paragraph and assembled bolts are driven Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を73段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 73 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box at the same angle for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を74段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 74 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を75段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 75 stages and the horizontal axis (1h) at right angles to the square turbine outer box with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を76段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph, and that are driven by three stages of 76 turbines, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を77段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape for each paragraph and driving three types of turbines with 77 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を78段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 78 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を79段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 79 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を80段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box at 80 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を81段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 81 stages or the like. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を82段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 82 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を83段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines, 83 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を84段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 84 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を85段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 85 stages, etc., with a horizontal axis (1h) perpendicular to a square turbine outer box at right angles, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を86段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by three types of turbines with 86 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を87段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven by three stages of turbines with 87 stages and the horizontal axis (1h) at right angles to the square outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を88段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 88 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を89段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 89 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を90段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 90 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を91段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 91 stages, etc. with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を92段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 92 stages, etc. with a horizontal axis (1h) at a right angle to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を93段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, three types of fitting bolt assembly drive turbines in 93 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を94段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat recovery by heat and compression recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of turbines driven by assembly bolt assembly 94 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を95段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 95 types of 3 types of fitting bolt assembly drive turbines, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を96段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Fully automatic processing allows 96 stages of 3 types of turbines to be assembled and driven with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を97段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing allows 97 stages of 3 types of turbines to be assembled and driven by fitting bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を98段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 98 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box at the same diameter for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を99段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 99 stages and the horizontal axis (1h) at right angles to the square turbine outer box with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を100段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 100 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box at the same diameter for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を101段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by three stages of turbines that have 101 stages and the horizontal axis (1h) is provided at right angles to the square turbine outer box Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を102段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 102 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を103段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box at 103 stages or the like. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を104段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box at 104 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を105段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box at 105 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を106段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) perpendicular to a square turbine outer box at 106 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を107段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a 107-stage horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を108段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 108 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を109段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 109 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を110段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 110 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を111段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 111 stages and the horizontal axis (1h) at right angles to the rectangular outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を112段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph, and 112 stages, etc., with a horizontal axis (1h) provided at a right angle to the outer casing of the square turbine. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を113段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 113 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を114段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing a multi-stage hydrogravity geothermal turbine with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 114 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を115段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly driven turbines with 115 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を116段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines for assembly bolt assembly driving with 116 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を117段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 117 stages, etc. with a horizontal axis (1h) at a right angle to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を118段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing is possible with three stages of fitting bolt assembly drive turbines with the same diameter for each paragraph and 118 stages Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を119段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 119 stages of 3 types of fitting bolt assembly drive turbines, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を120段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing is possible with three stages of fitting bolt assembly drive turbines with the same diameter and the same shape for each stage Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を1段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, and 3 types of turbines that drive assembly bolt assembly, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を2段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Fully automatic processing is possible with two stages of 3 types of turbines that assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescence engines provided with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を3段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines in three stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を4段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with four stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を5段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 5 stages, etc., with a horizontal axis (1h) at a right angle to the outer casing of the square turbine. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を6段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three horizontal stages (1h) provided at right angles to a square turbine outer box with 6 stages, etc., with 3 types of turbines that are assembled with the same diameter and substantially the same shape for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を7段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 7 stages and the horizontal axis (1h) at right angles to the square turbine outer box Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を8段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy conservation cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 8 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を9段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 9 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を10段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 10 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を11段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 11 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を12段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 12 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を13段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 13 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を14段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 14 stages and the horizontal axis (1h) at right angles to the square turbine outer box with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を15段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly driving turbines with 15 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を16段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph, and three stages of turbines that are driven in 16 stages, etc. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を17段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph, and 17 stages with a horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を18段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 18 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を19段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 19 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を20段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 20 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を21段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 21 stages, etc. with a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を22段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 22 stages, etc. with a horizontal axis (1h) at a right angle of the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を23段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of fitting bolt assembly drive turbines in 23 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を24段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat recovery by heat and compression + Fully automatic processing is possible with three stages of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を25段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat and heat recovery. + Fully automatic processing, with the same diameter and shape of each paragraph, and 3 types of turbines driven by assembly of bolts. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を26段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with 26 stages of 3 types of turbines that assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を27段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with 27 stages of 3 types of turbines to drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を28段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Configuration and method for accelerating the hydro-gravity power generated by 2 to 26 times the turbine blade cross-section (4X) vertically + + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save the water + geothermal heating Heat production that compresses air to 1200 degrees and heats another air repeatedly by heating and compressing heat recovery + Fully automatic processing is possible, and each stage has the same diameter and approximately the same shape. 1h) Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a rectangular turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を29段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Configuration and method for accelerating the hydro-gravity power generated by 2 to 26 times the turbine blade cross-section (4X) vertically + + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save the water + geothermal heating Heat production by compressing air and approaching 1200 ° C by repeating heating and compression heat recovery + Fully automatic processing The same diameter and shape of each paragraph are made to be almost the same shape. 1h) Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a rectangular turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を30段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Configuration and method for accelerating the hydro-gravity power generated by 2 to 26 times the turbine blade cross-section (4X) vertically + + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save the water + geothermal heating Heat production by compressing air and approaching 1200 ° C by repeating heating and compressing heat recovery + Fully automatic processing is possible. 1h) Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a rectangular turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を31段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Configuration and method for accelerating the hydro-gravity power generated by 2 to 26 times the turbine blade cross-section (4X) vertically + + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save the water + geothermal heating Heat production that compresses air to 1200 degrees and repeats heating and compression heat recovery for another air + full-automatic processing is possible with three stages of turbines that drive the assembly bolts assembling bolts with the same diameter and the same shape for each stage. 1h) Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a rectangular turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を32段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Configuration and method for accelerating the hydro-gravity power generated by 2 to 26 times the turbine blade cross-section (4X) vertically + + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save the water + geothermal heating Heat production that compresses air close to 1200 ° C and repeats heating and compression heat recovery and repeats heat recovery + full-automatic processing is possible with three stages of turbines that are fitted with assembling bolts with the same diameter and shape of each paragraph. 1h) Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a rectangular turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を33段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Configuration and method for accelerating the hydro-gravity power generated by 2 to 26 times the turbine blade cross-section (4X) vertically + + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save the water + geothermal heating Heat production that compresses air to 1200 degrees and repeats heating and compression heat recovery for another air + Fully automatic processing is possible, and the three types of fitting bolt assembly drive turbines are arranged in 33 stages etc. on the horizontal axis (approximately the same shape for each paragraph) 1h) Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a rectangular turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を34段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Configuration and method for accelerating the hydro-gravity power generated by 2 to 26 times the turbine blade cross-section (4X) vertically + + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save the water + geothermal heating Heat production by compressing air and approaching 1200 ° C by repeatedly heating and compressing and recovering compressed heat + Fully automatic processing is possible. 1h) Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a rectangular turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を35段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Configuration and method for accelerating the hydro-gravity power generated by 2 to 26 times the turbine blade cross-section (4X) vertically + + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save the water + geothermal heating Heat production by compressing air and approaching 1200 degrees by heating and regenerating heat by compressing and recovering heat + Fully automatic processing is possible. 1h) Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a rectangular turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を36段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Configuration and method for accelerating the hydro-gravity power generated by 2 to 26 times the turbine blade cross-section (4X) vertically + + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save the water + geothermal heating Heat production that compresses air close to 1200 degrees and repeats heating and compression heat recovery and repeats heat recovery + full-automatic processing is possible with three stages of turbines that drive fitting bolt assembly with the same diameter and the same shape for each paragraph on the horizontal axis ( 1h) Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a rectangular turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を37段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Configuration and method for accelerating the hydro-gravity power generated by 2 to 26 times the turbine blade cross-section (4X) vertically + + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save the water + geothermal heating Heat production by compressing air and approaching 1200 ° C by repeating heating and compressing heat recovery + Fully automatic processing The three shafts with the same diameter and the same shape for each stage can be assembled and assembled into 37 stages etc. 1h) Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a rectangular turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を38段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive 3 types of turbines with combined bolt assembly drive with 38 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を39段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with a combination bolt assembly drive with 39 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を40段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive 3 types of turbines with combined bolt assembly drive with 40 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を41段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 41 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を42段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven, with 42 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を43段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines driven by a combination bolt assembly with 43 stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を44段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive 3 types of turbines with combined bolt assembly drive with 44 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を45段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines driven by a combination bolt assembly with 45 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を46段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of combined bolt assembly drive turbines with 46 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を47段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines that are driven by assembling bolts with 47 stages and the horizontal axis (1h) having a right angle on the outer casing of the square turbine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を48段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive 3 types of turbines with combined bolt assembly drive with 48 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を49段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines with combined bolt assembly drive, with 49 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を50段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with combined bolt assembly drive with 50 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を51段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with combined bolt assembly drive, with 51 stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を52段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines that are driven by assembling bolts and having a horizontal axis (1h) at right angles to a square turbine outer box with 52 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を53段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines driven by a combination bolt assembly and having a horizontal axis (1h) at right angles to a square turbine outer box with 53 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を54段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with combined bolt assembly drive with 54 stages and so on, and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を55段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines that are driven by a combination bolt assembly and having a horizontal axis (1h) at a right angle of a square turbine outer box with 55 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を56段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with a combination bolt assembly drive with 56 stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を57段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of combined bolt assembly drive turbines with 57 stages and so on, and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を58段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 58 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を59段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 59 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を60段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 60 stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を61段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 61 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を62段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 62 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を63段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 63 stages and the horizontal axis (1h) at a right angle to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を64段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 64 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を65段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 65 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を66段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 66 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を67段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven, with 67 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を68段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production by repeating heating and compression heat recovery + 3 types of turbines driven by assembly and assembly for each blade group Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) having a right angle of square turbine outer box and 68 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を69段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production by repeating heating and compression heat recovery + 3 types of turbines driven by assembly and assembly for each blade group Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を70段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production by repeating heating and compression heat recovery + 3 types of turbines driven by assembly and assembly for each blade group Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle of 70 degrees and a horizontal axis (1h). タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を71段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production by repeating heating and compression heat recovery + 3 types of turbines driven by assembly and assembly for each blade group Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box at 71 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を72段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production by repeating heating and compression heat recovery + 3 types of turbines driven by assembly and assembly for each blade group Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box at 72 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差を可能な限り上昇+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を73段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Raise the head as much as possible with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it closer to 1200 degrees and heat another air Heat production with repeated compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of turbines with assembly bolt assembly drive, 73 stages, etc. Drive with horizontal axis (1h) at right angle to square turbine casing Various energy storage cycle coalescing engines equipped with generators and heat pumps. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差を可能な限り上昇+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を74段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Raise the head as much as possible with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it closer to 1200 degrees and heat another air Heat production with repeated compression heat recovery + Fully automatic machining, with the same diameter and shape of each paragraph, 3 types of turbines with assembly bolt assembly drive, 74 stages, etc. The horizontal axis (1h) is driven with a square turbine outer box at right angles Various energy storage cycle coalescing engines equipped with generators and heat pumps. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差を可能な限り上昇+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を75段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Raise the head as much as possible with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it closer to 1200 degrees and heat another air Heat production that repeats recovery of compression heat + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of fitting bolt assembly drive turbines with 75 stages, etc., with horizontal axis (1h) at right angles to square turbine outer box drive Various energy storage cycle coalescing engines equipped with generators and heat pumps. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差を可能な限り上昇+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を76段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Raise the head as much as possible with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it closer to 1200 degrees and heat another air Heat production with repeated compression heat recovery + Fully automatic machining, with the same diameter and shape of each paragraph, assembling bolt assembly 3 types of turbines are driven with 76 stages, etc. with horizontal axis (1h) at right angles to square turbine outer box Various energy storage cycle coalescing engines equipped with generators and heat pumps. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差を可能な限り上昇+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を77段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Raise the head as much as possible with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it closer to 1200 degrees and heat another air Heat production with repeated compression heat recovery + Fully automatic machining, with the same diameter and shape of each paragraph as the assembly bolt assembly drive 3 types of turbines, 77 stages, etc. with horizontal axis (1h) right angled square turbine outer box drive Various energy storage cycle coalescing engines equipped with generators and heat pumps. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を78段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 78 stages and the horizontal axis (1h) at right angles to the square turbine outer box with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を79段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly driving turbines with 79 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を80段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 80 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を81段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with three stages of turbines, etc., with 81 stages and the horizontal axis (1h) at right angles to the rectangular outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を82段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven by three stages of turbines, etc., with 82 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を83段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a rectangular turbine outer box in 83 stages or the like. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を84段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 84 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を85段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 85 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を86段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 86 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を87段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 87 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を88段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 88 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box at right angles, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を89段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 89 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を90段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines, 90 stages, etc., with a horizontal axis (1h) at a right angle to the outer casing of the square turbine, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を91段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 91 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を92段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 92 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を93段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 93 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を94段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 94 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を95段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that are driven by three types of fitting bolt assembly driving turbines with 95 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を96段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 96 bolts and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を97段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 97 stages, etc. with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を98段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box at 98 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を99段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box at 99 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を100段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 100 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を101段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescence engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 101 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を102段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescence engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 102 stages and the like. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を103段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 103 stages, etc. with a horizontal axis (1h) perpendicular to a square turbine outer box at right angles, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を104段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 104 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を105段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 105 stages, etc. with a horizontal axis (1h) perpendicular to a square turbine outer box at right angles, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を106段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by assembling bolts with 106 stages and the horizontal axis (1h) at right angles to the rectangular outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を107段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 107 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を108段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 108 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を109段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 109 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を110段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 110 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を111段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 111 stages, etc. with a horizontal axis (1h) at a right angle of the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を112段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive 3 types of turbines to be assembled and fitted with 112 stages, etc. with a horizontal axis (1h) at a right angle of the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を113段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of fitting bolt assembly drive turbines in 113 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を114段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of fitting bolt assembly drive turbines in 114 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を115段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing with the same diameter and the same shape for each paragraph, 3 types of fitting bolt assembly drive turbines in 115 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を116段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with 116 stages of 3 types of turbines that assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を117段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, 117 stages for 3 types of turbines that drive the assembly of bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を118段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 118 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を119段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 119 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box at the same diameter for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を120段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly driving turbines with 120 stages and the horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を1段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that drive three-stage turbines that have the same diameter and substantially the same shape for each paragraph and that are driven in a single stage with a horizontal axis (1h) having a rectangular turbine outer box at right angles Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を2段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three horizontal stages (1h) provided at right angles to a square turbine outer box in two stages, etc., with three stages of fitting bolts assembled and driven with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を3段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in three stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を4段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven in four stages with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を5段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in five stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を6段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in six stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を7段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy conservation cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in seven stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を8段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly driving turbines with eight stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を9段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 9 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box at the same diameter for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を10段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly driving turbines with 10 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を11段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 11 stages and the horizontal axis (1h) at right angles to the rectangular turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を12段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three horizontal stages (1h) provided at right angles to a square turbine outer box with 3 stages of turbines that are driven by assembling bolts with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を13段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 13 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を14段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 14 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を15段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 15 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を16段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 16 stages, etc. with a horizontal axis (1h) having a right angle on the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を17段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 17 stages, etc., with a horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を18段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing is possible with 18 stages of 3 types of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を19段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing is possible with 19 stages of 3 types of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を20段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeatedly collecting heat by compressing and recovering heat + Fully automatic processing is possible with 20 stages of 3 types of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を21段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with 21 stages of 3 types of turbines that drive the assembly of bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を22段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with 22 stages of 3 types of turbines to drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を23段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 23 stages and the horizontal axis (1h) provided at right angles to a square turbine outer box with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を24段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 24 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を25段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 25 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を26段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph, and three stages of turbines that drive assembly with 26 stages and the horizontal axis (1h) at right angles to the square outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を27段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by 27 types of turbines and a horizontal axis (1h) at right angles to the outer casing of the square turbine. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を28段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 28 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を29段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 29 stages and the like. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を30段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 30 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を31段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having a horizontal axis (1h) at right angles to a square turbine outer box in 31 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を32段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 32 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を33段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that have three stages of fitting bolt assembly drive with 33 stages, etc., with a horizontal axis (1h) provided at a right angle to the outer casing of the square turbine. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を34段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines, 34 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を35段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 35 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を36段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three horizontal stages (1h) provided at right angles to a square turbine outer box with 36 stages, etc., with three types of turbines to be assembled and driven with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を37段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph, and three stages of turbines that have 37 stages and a horizontal axis (1h) that has a right angled square outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を38段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 38 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を39段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 39 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を40段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 40 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を41段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 3 types of turbines to be assembled and driven with 41 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を42段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines for assembly bolt assembly driving with 42 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を43段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat and compression heat recovery for other air + Fully automatic processing is possible with three stages of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を44段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of fitting bolt assembly drive turbines in 44 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を45段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing with the same diameter and the same shape for each paragraph, 45 types of 3 types of fitting bolt assembly drive turbine etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を46段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Fully automatic processing is possible with 46 stages of 3 types of turbines that are assembled with the same diameter and same shape for each stage Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を47段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing is possible with 47 stages of 3 types of turbines that drive the assembly of bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を48段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 48 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を49段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 49 stages, etc., with the horizontal axis (1h) at a right angle to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を50段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 50 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を51段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three horizontal stages (1h) provided at right angles to a square turbine outer box with 51 stages, etc., with three types of turbines to be assembled and driven with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を52段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by three stages of turbines, etc., with 52 stages etc. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を53段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 53 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を54段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 54 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を55段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 55 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を56段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 56 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を57段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy conservation cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 57 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を58段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 58 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を59段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 59 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box with the same diameter and substantially the same shape for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を60段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 60 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を61段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by three types of turbines that have 61 stages, etc. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を62段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by three stages of turbines, etc., with 62 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を63段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 63 stages or the like and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を64段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 64 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を65段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 65 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を66段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven by 66 bolts and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を67段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 67 stages, etc. with a horizontal axis (1h) at a right angle to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を68段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, and 3 types of turbines with assembly bolt assembly drive, 68 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を69段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, and three types of turbines with fitting bolt assembly drive, 69 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を70段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing is possible with 70 stages of three types of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を71段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 ° C and repeats heating and compression heat recovery + Fully automatic processing is possible with 71 stages of three types of turbines that drive assembly by fitting bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を72段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, 72 stages of 3 types of turbines that are assembled with the same diameter and shape of each paragraph and assembled bolts are driven Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を73段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 73 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box at the same angle for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を74段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 74 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を75段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 75 stages and the horizontal axis (1h) at right angles to the square turbine outer box with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を76段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph, and that are driven by three stages of 76 turbines, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を77段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape for each paragraph and driving three types of turbines with 77 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を78段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 78 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を79段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 79 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を80段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box at 80 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を81段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 81 stages or the like. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を82段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 82 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を83段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines, 83 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を84段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 84 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を85段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 85 stages, etc., with a horizontal axis (1h) perpendicular to a square turbine outer box at right angles, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を86段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by three types of turbines with 86 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を87段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven by three stages of turbines with 87 stages and the horizontal axis (1h) at right angles to the square outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を88段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 88 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を89段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 89 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を90段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 90 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を91段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 91 stages, etc. with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を92段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 92 stages, etc. with a horizontal axis (1h) at a right angle to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を93段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, three types of fitting bolt assembly drive turbines in 93 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を94段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat recovery by heat and compression recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of turbines driven by assembly bolt assembly 94 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を95段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 95 types of 3 types of fitting bolt assembly drive turbines, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を96段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Fully automatic processing allows 96 stages of 3 types of turbines to be assembled and driven with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を97段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing allows 97 stages of 3 types of turbines to be assembled and driven by fitting bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を98段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 98 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box at the same diameter for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を99段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 99 stages and the horizontal axis (1h) at right angles to the square turbine outer box with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を100段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 100 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box at the same diameter for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を101段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by three stages of turbines that have 101 stages and the horizontal axis (1h) is provided at right angles to the square turbine outer box Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を102段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 102 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を103段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box at 103 stages or the like. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を104段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box at 104 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を105段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box at 105 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を106段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) perpendicular to a square turbine outer box at 106 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を107段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a 107-stage horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を108段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 108 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を109段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 109 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を110段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 110 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を111段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 111 stages and the horizontal axis (1h) at right angles to the rectangular outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を112段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph, and 112 stages, etc., with a horizontal axis (1h) provided at a right angle to the outer casing of the square turbine. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を113段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 113 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を114段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing a multi-stage hydrogravity geothermal turbine with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 114 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を115段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly driven turbines with 115 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を116段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines for assembly bolt assembly driving with 116 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を117段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 117 stages, etc. with a horizontal axis (1h) at a right angle to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を118段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing is possible with three stages of fitting bolt assembly drive turbines with the same diameter for each paragraph and 118 stages Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を119段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 119 stages of 3 types of fitting bolt assembly drive turbines, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を120段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing is possible with three stages of fitting bolt assembly drive turbines with the same diameter and the same shape for each stage Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を1段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, and 3 types of turbines that drive assembly bolt assembly, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を2段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Fully automatic processing is possible with two stages of 3 types of turbines that assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescence engines provided with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を3段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines in three stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を4段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with four stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を5段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 5 stages, etc., with a horizontal axis (1h) at a right angle to the outer casing of the square turbine. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を6段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three horizontal stages (1h) provided at right angles to a square turbine outer box with 6 stages, etc., with 3 types of turbines that are assembled with the same diameter and substantially the same shape for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を7段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 7 stages and the horizontal axis (1h) at right angles to the square turbine outer box Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を8段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy conservation cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 8 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を9段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 9 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を10段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 10 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を11段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 11 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を12段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 12 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を13段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 13 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を14段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 14 stages and the horizontal axis (1h) at right angles to the square turbine outer box with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を15段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly driving turbines with 15 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を16段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph, and three stages of turbines that are driven in 16 stages, etc. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を17段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph, and 17 stages with a horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を18段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 18 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を19段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 19 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を20段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 20 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を21段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 21 stages, etc. with a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を22段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 22 stages, etc. with a horizontal axis (1h) at a right angle of the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を23段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of fitting bolt assembly drive turbines in 23 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を24段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat recovery by heat and compression + Fully automatic processing is possible with three stages of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を25段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat and heat recovery. + Fully automatic processing, with the same diameter and shape of each paragraph, and 3 types of turbines driven by assembly of bolts. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を26段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with 26 stages of 3 types of turbines that assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を27段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with 27 stages of 3 types of turbines to drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を28段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator and a heat pump are provided to drive fully automatic machining, with the same diameter and shape of each paragraph, and three types of fitting bolt assembly drive turbines with 28 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を29段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. A generator and heat pump are installed to drive the machine with three types of fitting bolt assembly drive turbines with 29 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box at right angles so that it can be fully automated. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を30段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + Provided with generator and heat pump that can drive fully automatic machining with 3 stages of fitting bolt assembly drive turbine with 30 stages etc. with horizontal axis (1h) at right angle to square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を31段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 31 stages, etc., with a horizontal axis (1h) at a right angle to the outer casing of the square turbine. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を32段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for each stage, 32 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を33段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator and a heat pump are provided that are driven with three types of fitting bolt assembly-driven turbines with 33 stages, etc., with a horizontal axis (1h) at a right angle to the outer casing of the rectangular turbine, with fully automatic machining and the same diameter and shape. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を34段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator and a heat pump are provided that are driven by three types of fitting bolt assembly-driven turbines with 34 stages, etc., with a horizontal axis (1h) perpendicular to a square turbine outer box at right angles so that they can be fully automated. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を35段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator and a heat pump are provided that can drive fully automatic machining, with the same diameter and shape of each paragraph, and three types of turbines for assembly bolt assembly drive, 35 stages, etc., with a horizontal axis (1h) at a right angle to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を36段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 36 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box at right angles. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を37段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for each stage, 37 stages, etc. with horizontal axis (1h) at right angle to square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を38段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive 3 types of turbines with combined bolt assembly drive with 38 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を39段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with a combination bolt assembly drive with 39 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を40段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive 3 types of turbines with combined bolt assembly drive with 40 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を41段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 41 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を42段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven, with 42 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を43段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines driven by a combination bolt assembly with 43 stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を44段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive 3 types of turbines with combined bolt assembly drive with 44 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を45段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines driven by a combination bolt assembly with 45 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を46段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of combined bolt assembly drive turbines with 46 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を47段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines that are driven by assembling bolts with 47 stages and the horizontal axis (1h) having a right angle on the outer casing of the square turbine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を48段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive 3 types of turbines with combined bolt assembly drive with 48 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を49段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines with combined bolt assembly drive, with 49 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を50段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with combined bolt assembly drive with 50 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を51段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with combined bolt assembly drive, with 51 stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を52段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines that are driven by assembling bolts and having a horizontal axis (1h) at right angles to a square turbine outer box with 52 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を53段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines driven by a combination bolt assembly and having a horizontal axis (1h) at right angles to a square turbine outer box with 53 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を54段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with combined bolt assembly drive with 54 stages and so on, and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を55段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines that are driven by a combination bolt assembly and having a horizontal axis (1h) at a right angle of a square turbine outer box with 55 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を56段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with a combination bolt assembly drive with 56 stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を57段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of combined bolt assembly drive turbines with 57 stages and so on, and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を58段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 58 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を59段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 59 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を60段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 60 stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を61段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 61 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を62段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 62 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を63段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 63 stages and the horizontal axis (1h) at a right angle to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を64段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 64 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を65段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 65 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を66段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 66 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を67段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven, with 67 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を68段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production by repeating heating and compression heat recovery + 3 types of turbines driven by assembly and assembly for each blade group Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) having a right angle of square turbine outer box and 68 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を69段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production by repeating heating and compression heat recovery + 3 types of turbines driven by assembly and assembly for each blade group Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を70段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production by repeating heating and compression heat recovery + 3 types of turbines driven by assembly and assembly for each blade group Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle of 70 degrees and a horizontal axis (1h). タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を71段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production by repeating heating and compression heat recovery + 3 types of turbines driven by assembly and assembly for each blade group Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box at 71 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を72段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production by repeating heating and compression heat recovery + 3 types of turbines driven by assembly and assembly for each blade group Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box at 72 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を73段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the outer corner of the square turbine to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + Fully automatic processing is possible, and the generator is driven by having three stages of fitting bolt assembly drive turbines with 73 stages, etc. with a horizontal axis (1h) at right angles to a square turbine outer box so that it can be fully automated. Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を74段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + Fully automatic processing is possible, and generators that are driven with three stages of fitting bolt assembly drive turbines with 74 stages and the horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を75段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the outer corner of the square turbine to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + Fully automatic processing is possible, and the generator is driven by having three types of fitting bolt assembly drive turbines with 75 stages and the horizontal axis (1h) at right angles to the square turbine outer box so that it can be fully automated. Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を76段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + Fully automatic processing is possible with three stages of turbines to be assembled and assembled with the same diameter and shape of each stage, 76 generators, etc., and a horizontal axis (1h) with a square turbine outer box at right angles. Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を77段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + Fully automatic processing is possible with the same diameter and approximately the same shape for each paragraph. Three types of turbines for driving assembly of assembly bolts are equipped with 77 stages and so on. Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を78段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 78 stages and the horizontal axis (1h) at right angles to the square turbine outer box with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を79段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly driving turbines with 79 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を80段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 80 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を81段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with three stages of turbines, etc., with 81 stages and the horizontal axis (1h) at right angles to the rectangular outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を82段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven by three stages of turbines, etc., with 82 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を83段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a rectangular turbine outer box in 83 stages or the like. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を84段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 84 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を85段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 85 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を86段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 86 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を87段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 87 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を88段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 88 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box at right angles, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を89段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 89 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を90段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines, 90 stages, etc., with a horizontal axis (1h) at a right angle to the outer casing of the square turbine, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を91段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 91 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を92段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 92 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を93段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 93 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を94段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 94 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を95段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that are driven by three types of fitting bolt assembly driving turbines with 95 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を96段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 96 bolts and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を97段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 97 stages, etc. with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を98段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing is possible with three stages of fitting bolt assembly drive turbines with the same diameter and the same shape for each stage Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を99段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and the same shape for each paragraph, 99 types of 3 types of fitting bolt assembly drive turbines, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を100段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing is possible with 100 stages of 3 types of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を101段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with 101 stages of 3 types of turbines that are assembled and driven by fitting bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を102段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with 102 stages of 3 types of turbines to drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を103段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 103 stages, etc. with a horizontal axis (1h) perpendicular to a square turbine outer box at right angles, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を104段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 104 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を105段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 105 stages, etc. with a horizontal axis (1h) perpendicular to a square turbine outer box at right angles, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を106段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by assembling bolts with 106 stages and the horizontal axis (1h) at right angles to the rectangular outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を107段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 107 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を108段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 108 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を109段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box at 109 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を110段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) perpendicular to the square turbine outer box at 110 stages and the like. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を111段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box at 111 stages and the like. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を112段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescence engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) perpendicular to a square turbine outer box at 112 stages or the like. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を113段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolts assembly drive turbines with 113 stages and the horizontal axis (1h) perpendicular to the square turbine outer box at right angles with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を114段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines having 114 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を115段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 115 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を116段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that have three stages of 116 bolts and a horizontal axis (1h) that has a square turbine outer box at right angles. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を117段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph, and are driven with 117 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を118段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 118 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を119段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 119 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を120段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 120 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を1段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with one stage and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を2段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with two stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を3段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing is possible with three stages of 3 types of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を4段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of fitting bolt assembly drive turbines in 4 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を5段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing is possible with three stages of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を6段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery. + Fully automatic processing is possible with three stages of turbines that are assembled with assembling bolts with the same diameter and shape of each paragraph. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を7段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing is possible with seven stages of three types of turbines that drive the assembly of bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を8段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly driving turbines with eight stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を9段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 9 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box at the same diameter for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を10段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly driving turbines with 10 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を11段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 11 stages and the horizontal axis (1h) at right angles to the rectangular turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を12段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three horizontal stages (1h) provided at right angles to a square turbine outer box with 3 stages of turbines that are driven by assembling bolts with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を13段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 13 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を14段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 14 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を15段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) perpendicular to a square turbine outer box at 15 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を16段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) perpendicular to the square turbine outer box at 16 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を17段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 17 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を18段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 18 stages, etc. with a horizontal axis (1h) perpendicular to a square turbine outer box at right angles, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を19段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 19 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を20段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines, 20 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を21段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 21 stages or the like and a horizontal axis (1h) at a right angle to the outer casing of the square turbine. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を22段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with 3 stages of turbines that have the same diameter and substantially the same shape for each paragraph, and 22 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を23段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 23 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を24段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 24 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を25段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 25 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を26段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 26 stages, etc. with a horizontal axis (1h) having a right angle on the outer casing of a square turbine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を27段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 27 stages, etc. with a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を28段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing is possible with 28 stages of 3 types of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を29段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing with the same diameter and the same shape for each paragraph, 29 types of turbines with assembly bolt assembly drive, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を30段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, 30 stages of 3 types of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を31段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat recovery by heat and compression + Fully automatic processing is possible with 31 stages of 3 types of turbines that drive assembly by fitting bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を32段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat recovery by heat and compression + Third stages of 3 types of turbines to drive assembly bolts with the same diameter and the same shape for each paragraph to enable full automatic processing Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を33段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that have three stages of fitting bolt assembly drive with 33 stages, etc., with a horizontal axis (1h) provided at a right angle to the outer casing of the square turbine. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を34段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines, 34 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を35段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 35 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を36段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three horizontal stages (1h) provided at right angles to a square turbine outer box with 36 stages, etc., with three types of turbines to be assembled and driven with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を37段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph, and three stages of turbines that have 37 stages and a horizontal axis (1h) that has a right angled square outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を38段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 38 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を39段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a 39-stage horizontal axis (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を40段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 40 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を41段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 41 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を42段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescence engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 42 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を43段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines, 43 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を44段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 44 stages and the horizontal axis (1h) perpendicular to the square turbine outer box at right angles with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を45段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 45 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を46段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven by assembling and driving three types of turbines with 46 stages and the horizontal axis (1h) at right angles to the square turbine outer box Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を47段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by three types of turbines that have 47 stages and a horizontal axis (1h) that has a right angle square outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を48段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that are driven by three types of fitting bolt assembly drive turbines with 48 stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を49段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 49 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を50段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 50 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を51段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 51 stages, etc. with a horizontal axis (1h) at a right angle to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を52段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 52 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を53段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of fitting bolt assembly drive turbines in 53 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を54段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing is possible with three stages of fitting bolt assembly drive turbines with the same diameter and the same shape for each stage Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を55段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat recovery by heating and compressing heat recovery + Fully automatic processing with the same diameter and the same shape for each paragraph 55 types of 3 types of turbines with assembly bolt assembly drive Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を56段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 ° C and repeats heating and compression heat recovery + Fully automatic processing is possible with three stages of turbines that have the same diameter and the same shape for each stage, as well as 56 types of turbines Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を57段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing is possible with 57 stages of 3 types of turbines that assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を58段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 58 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を59段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 59 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box with the same diameter and substantially the same shape for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を60段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 60 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を61段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by three types of turbines that have 61 stages, etc. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を62段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by three stages of turbines, etc., with 62 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を63段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 63 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を64段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 64 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を65段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box at 65 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を66段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) having a right angle on the square turbine outer box in 66 stages and the like. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を67段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 67 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を68段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 68 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を69段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 69 stages, etc., with a horizontal axis (1h) at right angles to the square turbine outer box at the same angle for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を70段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly driving turbines with 70 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box at the same diameter for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を71段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that are assembled with assembling bolts with the same diameter and approximately the same shape for each paragraph, and 71 stages and the horizontal axis (1h) is provided at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を72段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 72 stages and the horizontal axis (1h) at right angles to the square outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を73段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that are driven by three types of fitting bolt assembly drive turbines with 73 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を74段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing a multi-stage hydrogravity geothermal turbine with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 74 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を75段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing a multi-stage hydrogravity geothermal turbine with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 75 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を76段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 76 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を77段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing a multi-stage hydrogravity geothermal turbine with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 77 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を78段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing is possible with the same diameter and shape of each paragraph, and 3 types of turbines with assembly bolt assembly drive, 78 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を79段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of turbines driven by assembly bolt assembly 79 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を80段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and approaching 1200 ° C by repeating heating and compression heat recovery. + Fully automatic processing is possible with 80 stages of 3 types of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を81段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing is possible with three stages of turbines that are assembled with the same diameter and the same shape for each paragraph, and 81 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を82段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing is possible with three stages of turbines that drive the assembly of bolts with the same diameter and shape of each paragraph. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を83段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines, 83 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を84段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 84 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を85段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 85 stages, etc., with a horizontal axis (1h) perpendicular to a square turbine outer box at right angles, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を86段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by three types of turbines with 86 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を87段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven by three stages of turbines with 87 stages and the horizontal axis (1h) at right angles to the square outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を88段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having a horizontal axis (1h) at right angles to a square turbine outer box at 88 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を89段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 89 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を90段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a 90-degree horizontal axis (1h) provided at a right angle to the rectangular turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を91段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven by having a horizontal axis (1h) at right angles to a square turbine outer box in 91 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を92段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) perpendicular to the square turbine outer box at 92 stages and so on. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を93段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 93 stages, etc., with a horizontal axis (1h) at a right angle of the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を94段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 94 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を95段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 95 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を96段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 96 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を97段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven by three-stage turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 97 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を98段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 98 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を99段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 99 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を100段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 100 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を101段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing a multi-stage hydrogravity geothermal turbine with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 101 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を102段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 102 stages, etc. with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を103段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing is possible with 103 stages of 3 types of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を104段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of turbines driven by assembly bolt assembly 104 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を105段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing with 105 parts in 3 stages of fitting bolt assembly drive with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を106段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing is possible with 106 stages of 3 types of turbines that drive the assembly of bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を107段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat and compression heat recovery for another air + 107 stages for 3 types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を108段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 108 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を109段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 109 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を110段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 110 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を111段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 111 stages and the horizontal axis (1h) at right angles to the rectangular outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を112段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph, and 112 stages, etc., with a horizontal axis (1h) provided at a right angle to the outer casing of the square turbine. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を113段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box at 113 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を114段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box at 114 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を115段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box at 115 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を116段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box at 116 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を117段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy conservation cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box at 117 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を118段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 118 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を119段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 119 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box at the same diameter for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を120段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly driving turbines with 120 stages and the horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を1段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that drive three-stage turbines that have the same diameter and substantially the same shape for each paragraph and that are driven in a single stage with a horizontal axis (1h) having a rectangular turbine outer box at right angles Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を2段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three horizontal stages (1h) provided at right angles to a square turbine outer box in two stages, etc., with three stages of fitting bolts assembled and driven with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を3段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines for fitting bolt assembly driving in three stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を4段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive 3 types of fitting bolt assembly drive turbines with 4 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を5段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines for assembly bolt assembly drive with 5 stages etc. and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を6段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 6 bolts, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を7段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 7 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を8段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat and compression heat recovery for another air + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of turbines driven by assembly bolt assembly, 8 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を9段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and almost the same shape for each paragraph, 9 types of turbines driven by assembly bolt assembly 9 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を10段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of turbines driven by assembly bolt assembly, 10 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を11段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat recovery by heating and compression heat recovery + 11 stages of 3 types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を12段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Fully automatic processing is possible with 12 stages of 3 types of turbines that are assembled and driven by fitting bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を13段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 13 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を14段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 14 stages and the horizontal axis (1h) at right angles to the square turbine outer box with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を15段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly driving turbines with 15 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を16段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph, and three stages of turbines that are driven in 16 stages, etc. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を17段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph, and 17 stages with a horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を18段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 18 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を19段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 19 stages and the like. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を20段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 20 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を21段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 21 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を22段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 22 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を23段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 23 stages and the horizontal axis (1h) provided at right angles to a square turbine outer box with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を24段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 24 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を25段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 25 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を26段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph, and three stages of turbines that drive assembly with 26 stages and the horizontal axis (1h) at right angles to the square outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を27段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by 27 types of turbines and a horizontal axis (1h) at right angles to the outer casing of the square turbine. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を28段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 28 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を29段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 29 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を30段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 30 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を31段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive 3 types of turbines to be assembled and fitted with 31 stages, etc., with a horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を32段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive 3 types of turbines to be assembled and fitted with 32 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を33段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of fitting bolt assembly drive turbines in 33 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を34段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of turbines driven by assembly bolt assembly 34 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を35段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing is possible with 35 stages of 3 types of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を36段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing is possible with 36 stages of 3 types of turbines that drive the assembly of bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を37段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing is possible with 37 stages of 3 types of turbines to drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を38段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator and a heat pump are provided that are driven with three types of fitting bolt assembly drive turbines with 38 stages and the horizontal axis (1h) perpendicular to the square turbine outer box at right angles so that they can be fully automated. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を39段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator and a heat pump are provided to drive fully automatic machining, with the same diameter and shape of each paragraph, and 3 types of fitting bolt assembly drive turbines with 39 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を40段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator and a heat pump are provided that can drive fully automatic machining, with the same diameter and shape of each paragraph, and three types of fitting bolt assembly drive turbines with 40 stages, etc., and a horizontal axis (1h) with a square turbine outer box at right angles. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を41段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, with 41 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を42段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator and a heat pump are installed to drive three types of turbines that are assembled with assembling bolts with the same diameter and approximately the same shape for each fully automatic machining, with 42 stages, etc., and a horizontal axis (1h) provided at a right angle to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を43段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator and a heat pump are provided that are driven with three types of fitting bolt assembly drive turbines in 43 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box at right angles so that they can be fully automated. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を44段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator and a heat pump are installed that can drive fully automatic machining with the same diameter and shape of each paragraph, and 3 types of fitting bolt assembly drive turbines with 44 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を45段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator and a heat pump are installed that can be machined automatically and have three stages with the same diameter and the same shape for each stage, and are equipped with three types of fitting bolt assembly drive turbines with 45 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を46段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + Provided with generator and heat pump to drive 3 types of turbines that have the same diameter and same shape for each paragraph and can be assembled fully automatically. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を47段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + Provided with generator and heat pump to drive 3 types of turbines that have the same diameter and almost the same shape for each stage and are equipped with 47 bolts, etc. with a horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を48段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive 3 types of turbines with combined bolt assembly drive with 48 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を49段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines with combined bolt assembly drive, with 49 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を50段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with combined bolt assembly drive with 50 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を51段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 51 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を52段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and driven with 52 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を53段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines driven by a combination bolt assembly and having a horizontal axis (1h) at right angles to a square turbine outer box with 53 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を54段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with combined bolt assembly drive with 54 stages and so on, and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を55段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines that are driven by a combination bolt assembly and having a horizontal axis (1h) at a right angle of a square turbine outer box with 55 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を56段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with a combination bolt assembly drive with 56 stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を57段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of combined bolt assembly drive turbines with 57 stages and so on, and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を58段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive 3 types of turbines with combined bolt assembly drive with 58 stages etc. with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を59段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps, which are driven by three types of turbines that are assembled and assembled with 59 bolts and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を60段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive 3 types of turbines with combined bolt assembly drive with 60 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を61段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of combined bolt assembly drive turbines with 61 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を62段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines driven by a combination bolt assembly with 62 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を63段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of combined bolt assembly drive turbines with 63 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を64段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + accelerating the storage battery drive + various pumping vessels (1J) square type Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive 3 types of turbines with combined bolt assembly drive with 64 stages etc. with a horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を65段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with combined bolt assembly drive with 65 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を66段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines driven by a combination bolt assembly with 66 stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を67段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with combined bolt assembly drive with 67 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を68段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 68 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を69段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven, with 69 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を70段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 70 stages and the horizontal axis (1h) having a rectangular turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を71段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 71 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を72段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 72 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を73段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 73 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を74段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 74 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を75段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and driven with 75 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を76段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled and driven with 76 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を77段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + accelerating the storage battery drive + various pumping vessels (1J) square type Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and driven with 77 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を78段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + accelerating the storage battery drive + various pumping vessels (1J) square type Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production by repeating heating and compression heat recovery + 3 types of turbines driven by assembly and assembly for each blade group Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having a horizontal axis (1h) at right angles to a square turbine outer box at 78 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を79段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + accelerating the storage battery drive + various pumping vessels (1J) square type Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production by repeating heating and compression heat recovery + 3 types of turbines driven by assembly and assembly for each blade group Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a 79-stage horizontal axis (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を80段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production by repeating heating and compression heat recovery + 3 types of turbines driven by assembly and assembly for each blade group Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) having a right angle of square turbine outer box and 80 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を81段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production by repeating heating and compression heat recovery + 3 types of turbines driven by assembly and assembly for each blade group Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box at 81 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を82段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + accelerating the storage battery drive + various pumping vessels (1J) square type Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production by repeating heating and compression heat recovery + 3 types of turbines driven by assembly and assembly for each blade group Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) having a right angle on a square turbine outer box in 82 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を83段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + Fully automatic processing is possible, and generators that are driven with three stages of fitting bolt assembly driving turbines of 83 stages, etc., with a horizontal axis (1h) at right angles to a rectangular turbine outer box, with the same diameter for each paragraph. Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を84段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + Fully automatic processing is possible, generators that are driven with three stages of fitting bolt assembly drive turbines with 84 stages, etc. with a horizontal axis (1h) at right angles to a square turbine outer box so that it can be fully automated. Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を85段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + Fully automatic processing is possible, and generators that are driven with three stages of fitting bolt assembly drive turbines with 85 stages, etc. with a horizontal axis (1h) at right angles to a square-shaped turbine outer box, with the same diameter for each paragraph. Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を86段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + Fully automatic machining is possible with the same diameter and diameter of each paragraph as a fitting bolt assembly drive 3 types of turbines, 86 stages, etc. with a horizontal axis (1h) at right angles to a square turbine outer box and a generator to drive Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を87段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + Fully automatic processing is possible with three stages of turbines that are assembled with assembling bolts with the same diameter and the same shape for each stage. The generator is driven with 87 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を88段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 88 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box at right angles, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を89段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 89 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を90段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines, 90 stages, etc., with a horizontal axis (1h) at a right angle to the outer casing of the square turbine, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を91段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 91 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を92段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 92 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を93段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box at 93 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を94段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 94 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を95段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 95 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を96段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 96 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を97段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 97 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を98段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 98 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box at the same diameter for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を99段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 99 stages and the horizontal axis (1h) at right angles to the square turbine outer box with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を100段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 100 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box at the same diameter for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を101段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by three stages of turbines that have 101 stages and the horizontal axis (1h) is provided at right angles to the square turbine outer box Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を102段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 102 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を103段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of fitting bolt assembly drive turbines with 103 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を104段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 104 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を105段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 105 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を106段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 106 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を107段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 107 bolts and a horizontal axis (1h) with a rectangular turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を108段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing is possible with 108 stages of 3 types of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を109段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing with the same diameter and the same shape for each paragraph, 109 types of 3 types of fitting bolt assembly drive turbines, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を110段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of fitting bolt assembly drive turbines, 110 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を111段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing is possible with 111 stages of 3 types of turbines that are assembled with the same diameter and same shape for each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を112段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with three stages of turbines that are assembled with assembling bolts as the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を113段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolts assembly drive turbines with 113 stages and the horizontal axis (1h) perpendicular to the square turbine outer box at right angles with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を114段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines having 114 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を115段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 115 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を116段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that have three stages of 116 bolts and a horizontal axis (1h) that has a square turbine outer box at right angles. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を117段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph, and are driven with 117 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を118段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) perpendicular to a square turbine outer box at 118 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を119段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy conservation cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box at 119 stages and the like. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を120段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a 120-degree horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を1段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in one stage. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を2段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven in two stages with a horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を3段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines in three stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を4段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with four stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を5段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 5 stages, etc., with a horizontal axis (1h) at a right angle to the outer casing of the square turbine. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を6段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three horizontal stages (1h) provided at right angles to a square turbine outer box with 6 stages, etc., with 3 types of turbines that are assembled with the same diameter and substantially the same shape for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を7段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 7 stages and the horizontal axis (1h) at right angles to the square turbine outer box Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を8段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive 3 types of fitting bolt assembly drive turbines with 8 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を9段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 9 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を10段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 10 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を11段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 11 stages, etc. with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を12段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 12 stages, etc., with a horizontal axis (1h) at a right angle of the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を13段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 13 types of fitting bolt assembly drive turbines in 13 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を14段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing is possible with 14 stages of 3 types of fitting bolt assembly drive turbines with the same diameter and the same shape for each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を15段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing is possible with 15 stages of 3 types of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を16段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Fully automatic processing is possible with 16 stages of 3 types of turbines that drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を17段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with 17 stages of 3 types of turbines to drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を18段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 18 stages, etc. with a horizontal axis (1h) perpendicular to a square turbine outer box at right angles, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を19段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 19 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を20段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines, 20 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を21段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 21 stages or the like and a horizontal axis (1h) at a right angle to the outer casing of the square turbine. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を22段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with 3 stages of turbines that have the same diameter and substantially the same shape for each paragraph, and 22 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を23段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 23 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を24段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 24 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を25段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 25 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を26段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 26 stages and the like. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を27段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) perpendicular to a square turbine outer box in 27 stages and the like. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を28段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 28 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を29段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 29 stages and the horizontal axis (1h) at right angles to the square turbine outer box with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を30段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 30 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を31段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with 3 stages of turbines that have the same diameter and substantially the same shape for each paragraph, and 31 stages, etc., with a horizontal axis (1h) at right angles to the outer casing of the square turbine. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を32段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 32 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を33段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 33 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を34段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 34 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を35段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 35 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を36段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 36 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を37段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven by 37 bolts and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を38段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, and 3 types of turbines driven by assembly bolt assembly 38 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を39段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, and 3 types of turbines with assembly bolt assembly drive, 39 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を40段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing is possible with 40 stages of 3 types of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を41段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing is possible with 41 stages of 3 types of turbines that drive assembly by fitting bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を42段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with three stages of turbines that drive the assembly of bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を43段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines, 43 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を44段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 44 stages and the horizontal axis (1h) perpendicular to the square turbine outer box at right angles with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を45段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 45 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を46段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven by assembling and driving three types of turbines with 46 stages and the horizontal axis (1h) at right angles to the square turbine outer box Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を47段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by three types of turbines that have 47 stages and a horizontal axis (1h) that has a right angle square outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を48段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 48 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を49段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having a horizontal axis (1h) at right angles to a square turbine outer box in 49 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を50段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 50 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を51段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 51 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を52段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 52 stages and the like. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を53段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 53 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を54段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 54 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を55段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines, 55 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を56段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with three stages of turbines, etc., with a horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を57段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps with 57 horizontal stages (1h) provided at right angles to the square turbine outer box, and three types of turbines that drive the assembly of bolts with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を58段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 58 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を59段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 59 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を60段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 60 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を61段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines for assembly bolt assembly driving with 61 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を62段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 62 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を63段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of turbines driven by assembly bolt assembly 63 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を64段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of fitting bolt assembly drive turbines in 64 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を65段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and approaching 1200 ° C by repeating heating and compression heat recovery. + Fully automatic processing is possible with three stages of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を66段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with three stages of turbines that have the same diameter and the same shape for each stage, assembling bolts, 66 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を67段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with 67 stages of 3 types of turbines that drive the assembly of bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を68段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 68 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を69段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 69 stages, etc., with a horizontal axis (1h) at right angles to the square turbine outer box at the same angle for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を70段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly driving turbines with 70 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box at the same diameter for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を71段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that are assembled with assembling bolts with the same diameter and approximately the same shape for each paragraph, and 71 stages and the horizontal axis (1h) is provided at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を72段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 72 stages and the horizontal axis (1h) at right angles to the square outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を73段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box at 73 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を74段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 74 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を75段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 75 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を76段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 76 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を77段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a rectangular turbine outer box in 77 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を78段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 78 stages and the horizontal axis (1h) at right angles to the square turbine outer box with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を79段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly driving turbines with 79 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を80段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 80 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を81段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with three stages of turbines, etc., with 81 stages and the horizontal axis (1h) at right angles to the rectangular outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を82段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven by three stages of turbines, etc., with 82 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を83段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 83 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を84段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 84 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を85段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 85 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を86段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 86 stages, etc. with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を87段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 87 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を88段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing is possible with three stages of fitting bolt assembly driven turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を89段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, and 3 types of turbines with assembly bolt assembly drive, 89 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を90段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing with the same diameter and the same shape for each paragraph 90 stages of 3 types of fitting bolt assembly drive turbines etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を91段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with 91 stages of 3 types of turbines that are assembled with the same diameter and same shape for each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を92段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with 92 stages of 3 types of turbines to drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を93段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 93 stages, etc., with a horizontal axis (1h) at a right angle of the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を94段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 94 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を95段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 95 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を96段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 96 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を97段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven by three-stage turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 97 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を98段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box at 98 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を99段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box at 99 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を100段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 100 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を101段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescence engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 101 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を102段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescence engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 102 stages and the like. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を103段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 103 stages, etc. with a horizontal axis (1h) perpendicular to a square turbine outer box at right angles, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を104段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 104 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を105段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 105 stages, etc. with a horizontal axis (1h) perpendicular to a square turbine outer box at right angles, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を106段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by assembling bolts with 106 stages and the horizontal axis (1h) at right angles to the rectangular outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を107段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 107 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を108段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 108 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を109段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 109 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を110段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 110 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を111段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 111 stages, etc. with a horizontal axis (1h) at a right angle of the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を112段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive 3 types of turbines to be assembled and fitted with 112 stages, etc. with a horizontal axis (1h) at a right angle of the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を113段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of fitting bolt assembly drive turbines in 113 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を114段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of fitting bolt assembly drive turbines in 114 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を115段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing with the same diameter and the same shape for each paragraph, 3 types of fitting bolt assembly drive turbines in 115 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を116段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with 116 stages of 3 types of turbines that assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を117段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, 117 stages for 3 types of turbines that drive the assembly of bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を118段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 118 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を119段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 119 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box at the same diameter for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を120段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly driving turbines with 120 stages and the horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を1段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that drive three-stage turbines that have the same diameter and substantially the same shape for each paragraph and that are driven in a single stage with a horizontal axis (1h) having a rectangular turbine outer box at right angles Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を2段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three horizontal stages (1h) provided at right angles to a square turbine outer box in two stages, etc., with three stages of fitting bolts assembled and driven with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を3段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in three stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を4段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven in four stages with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を5段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in five stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を6段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in six stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を7段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy conservation cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in seven stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を8段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly driving turbines with eight stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を9段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 9 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box at the same diameter for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を10段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly driving turbines with 10 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を11段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 11 stages and the horizontal axis (1h) at right angles to the rectangular turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を12段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three horizontal stages (1h) provided at right angles to a square turbine outer box with 3 stages of turbines that are driven by assembling bolts with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を13段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 13 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を14段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 14 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を15段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 15 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を16段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 16 stages, etc. with a horizontal axis (1h) having a right angle on the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を17段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 17 stages, etc., with a horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を18段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing is possible with 18 stages of 3 types of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を19段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing is possible with 19 stages of 3 types of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を20段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeatedly collecting heat by compressing and recovering heat + Fully automatic processing is possible with 20 stages of 3 types of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を21段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with 21 stages of 3 types of turbines that drive the assembly of bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を22段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with 22 stages of 3 types of turbines to drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を23段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 23 stages and the horizontal axis (1h) provided at right angles to a square turbine outer box with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を24段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 24 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を25段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 25 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を26段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph, and three stages of turbines that drive assembly with 26 stages and the horizontal axis (1h) at right angles to the square outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を27段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by 27 types of turbines and a horizontal axis (1h) at right angles to the outer casing of the square turbine. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を28段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 28 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を29段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 29 stages and the like. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を30段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 30 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を31段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having a horizontal axis (1h) at right angles to a square turbine outer box in 31 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を32段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 32 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を33段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that have three stages of fitting bolt assembly drive with 33 stages, etc., with a horizontal axis (1h) provided at a right angle to the outer casing of the square turbine. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を34段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines, 34 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を35段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 35 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を36段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three horizontal stages (1h) provided at right angles to a square turbine outer box with 36 stages, etc., with three types of turbines to be assembled and driven with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を37段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph, and three stages of turbines that have 37 stages and a horizontal axis (1h) that has a right angled square outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を38段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 38 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を39段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 39 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を40段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 40 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を41段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 3 types of turbines to be assembled and driven with 41 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を42段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines for assembly bolt assembly driving with 42 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を43段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat and compression heat recovery for other air + Fully automatic processing is possible with three stages of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を44段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of fitting bolt assembly drive turbines in 44 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を45段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing with the same diameter and the same shape for each paragraph, 45 types of 3 types of fitting bolt assembly drive turbine etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を46段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Fully automatic processing is possible with 46 stages of 3 types of turbines that are assembled with the same diameter and same shape for each stage Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を47段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing is possible with 47 stages of 3 types of turbines that drive the assembly of bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を48段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator and a heat pump are provided that can drive fully automatic machining, with the same diameter and shape of each stage, and 3 types of fitting bolt assembly drive turbines with 48 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を49段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + Provided with generator and heat pump to drive fully automatic machining with 3 stages of fitting bolt assembly drive turbines with 49 stages, etc. with horizontal axis (1h) at right angle to square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を50段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + Provided with generator and heat pump that can drive fully automatic machining with 3 stages of fitting bolt assembly driving turbine with 50 stages, etc., with horizontal axis (1h) at right angle to square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を51段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + Provided with generator and heat pump to drive 3 types of turbines, which have the same diameter and same shape for each paragraph, and 51 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を52段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, with 52 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を53段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + Provided with generator and heat pump to drive 3 types of fitting bolt assembly drive turbines with 53 stages, etc. with horizontal axis (1h) at right angles to square turbine outer box at right angle, almost same shape for each paragraph, enabling full automatic machining Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を54段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator and a heat pump are provided to drive fully automatic machining with the same diameter and shape of each paragraph, and three types of fitting bolt assembly drive turbines with 54 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を55段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator and a heat pump are installed to drive fully automatic machining, with the same diameter and shape of each paragraph, and 3 types of fitting bolt assembly drive turbines with 55 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を56段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator and a heat pump are provided to drive three-stage turbines with the same diameter and substantially the same shape for each fully-automatic machining, with 56 stages, etc., and a horizontal axis (1h) provided at right angles to a square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を57段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for full automatic machining, 57 stages etc. with horizontal axis (1h) at right angles to square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を58段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive 3 types of turbines with combined bolt assembly drive with 58 stages etc. with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を59段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps, which are driven by three types of turbines that are assembled and assembled with 59 bolts and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を60段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive 3 types of turbines with combined bolt assembly drive with 60 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を61段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 61 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を62段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 62 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を63段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of combined bolt assembly drive turbines with 63 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を64段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + accelerating the storage battery drive + various pumping vessels (1J) square type Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive 3 types of turbines with combined bolt assembly drive with 64 stages etc. with a horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を65段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with combined bolt assembly drive with 65 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を66段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines driven by a combination bolt assembly with 66 stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を67段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with combined bolt assembly drive with 67 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を68段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of combined bolt assembly drive turbines with 68 stages etc. and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を69段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + accelerating the storage battery drive + various pumping vessels (1J) square type Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with a combination bolt assembly drive with 69 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を70段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with a combination bolt assembly driving 70 stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を71段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines driven by a combination bolt assembly with 71 stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を72段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of combined bolt assembly driven turbines with 72 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を73段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of combined bolt assembly driven turbines with 73 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を74段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of combined bolt assembly drive turbines with 74 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を75段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines driven by a combination bolt assembly with 75 stages or the like and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を76段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of combined bolt assembly driven turbines with 76 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を77段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of combined bolt assembly drive turbines with 77 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を78段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and assembled with 78 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を79段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + accelerating the storage battery drive + various pumping vessels (1J) square type Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps, which are driven by having three types of turbines to be assembled and driven with 79 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を80段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and driven with 80 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を81段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven, with 81 stages or the like and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を82段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 82 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を83段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 83 stages or the like and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を84段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + accelerating the storage battery drive + various pumping vessels (1J) square type Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 84 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を85段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven, with 85 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を86段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 86 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を87段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production that repeats heating, compression and heat recovery + Fits as almost the same shape with the same diameter for each paragraph for fully automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 87 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を88段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production by repeating heating and compression heat recovery + 3 types of turbines driven by assembly and assembly for each blade group Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box at 88 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を89段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production by repeating heating and compression heat recovery + 3 types of turbines driven by assembly and assembly for each blade group Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) having a right angle on the square turbine outer box at 89 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を90段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production by repeating heating and compression heat recovery + 3 types of turbines driven by assembly and assembly for each blade group Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at 90 degrees and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を91段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production by repeating heating and compression heat recovery + 3 types of turbines driven by assembly and assembly for each blade group Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having a horizontal axis (1h) at right angles with a square turbine outer box at 91 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+各動翼群毎に加工組立駆動のタービン3種類を92段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approaching 1200 degrees, heat production by repeating heating and compression heat recovery + 3 types of turbines driven by assembly and assembly for each blade group Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) having a right angle on the square turbine outer box in 92 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を93段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + Fully automatic processing is possible, and generators that are driven with three stages of fitting bolt assembly drive turbines with 93 stages, etc. with a horizontal axis (1h) at right angles to a square-shaped turbine outer box, with the same diameter and shape of each paragraph. Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を94段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + Fully automatic processing is possible, generators that are driven with three stages of fitting bolt assembly drive turbines with 94 stages and the horizontal axis (1h) at right angles to the square turbine outer box so that it can be fully automated. Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を95段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + Fully automatic processing is possible, generators that are driven with three stages of fitting bolt assembly driving turbines with 95 stages, etc. with a horizontal axis (1h) at right angles to a rectangular turbine outer box, with the same diameter for each paragraph. Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を96段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + Fully automatic processing is possible with generators that are driven with three stages of turbines that are assembled in assembling bolts with the same diameter and approximately the same shape for each stage, with 96 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を97段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + Fully automatic machining, with the same diameter and diameter of each paragraph, and three types of turbines that are assembled and driven to assemble bolts. Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を98段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 98 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box at the same diameter for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を99段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 99 stages and the horizontal axis (1h) at right angles to the square turbine outer box with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を100段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 100 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box at the same diameter for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を101段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by three stages of turbines that have 101 stages and the horizontal axis (1h) is provided at right angles to the square turbine outer box Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を102段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 102 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を103段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box at 103 stages or the like. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を104段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box at 104 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を105段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box at 105 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を106段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) perpendicular to a square turbine outer box at 106 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を107段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a 107-stage horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を108段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 108 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を109段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 109 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を110段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 110 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を111段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 111 stages and the horizontal axis (1h) at right angles to the rectangular outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を112段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph, and 112 stages, etc., with a horizontal axis (1h) provided at a right angle to the outer casing of the square turbine. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を113段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 113 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を114段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing a multi-stage hydrogravity geothermal turbine with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 114 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を115段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly driven turbines with 115 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を116段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines for assembly bolt assembly driving with 116 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を117段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 117 stages, etc. with a horizontal axis (1h) at a right angle to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を118段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing is possible with three stages of fitting bolt assembly drive turbines with the same diameter for each paragraph and 118 stages Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を119段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 119 stages of 3 types of fitting bolt assembly drive turbines, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を120段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing is possible with three stages of fitting bolt assembly drive turbines with the same diameter and the same shape for each stage Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を1段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, and 3 types of turbines that drive assembly bolt assembly, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を2段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heating and compression heat recovery + Fully automatic processing is possible with two stages of 3 types of turbines that assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescence engines provided with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を3段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines in three stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を4段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with four stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を5段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 5 stages, etc., with a horizontal axis (1h) at a right angle to the outer casing of the square turbine. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を6段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three horizontal stages (1h) provided at right angles to a square turbine outer box with 6 stages, etc., with 3 types of turbines that are assembled with the same diameter and substantially the same shape for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を7段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 7 stages and the horizontal axis (1h) at right angles to the square turbine outer box Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を8段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy conservation cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 8 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を9段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 9 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を10段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 10 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を11段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 11 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を12段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 12 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を13段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 13 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を14段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 14 stages and the horizontal axis (1h) at right angles to the square turbine outer box with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を15段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly driving turbines with 15 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を16段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph, and three stages of turbines that are driven in 16 stages, etc. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を17段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph, and 17 stages with a horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を18段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 18 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を19段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 19 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を20段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 20 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を21段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 21 stages, etc. with a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を22段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 22 stages, etc. with a horizontal axis (1h) at a right angle of the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を23段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of fitting bolt assembly drive turbines in 23 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を24段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat recovery by heat and compression + Fully automatic processing is possible with three stages of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を25段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat and heat recovery. + Fully automatic processing, with the same diameter and shape of each paragraph, and 3 types of turbines driven by assembly of bolts. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を26段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with 26 stages of 3 types of turbines that assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を27段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with 27 stages of 3 types of turbines to drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を28段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 28 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を29段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 29 stages and the horizontal axis (1h) at right angles to the square turbine outer box with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を30段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 30 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を31段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with 3 stages of turbines that have the same diameter and substantially the same shape for each paragraph, and 31 stages, etc., with a horizontal axis (1h) at right angles to the outer casing of the square turbine. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を32段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 32 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を33段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescence engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 33 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を34段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 34 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を35段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 35 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を36段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps which are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 36 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を37段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 37 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を38段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 38 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を39段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 39 stages and so on, and a horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を40段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines, 40 stages, etc., with a horizontal axis (1h) at a right angle to the outer casing of the square turbine. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を41段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with 3 stages of turbines that have the same diameter and substantially the same shape for each paragraph, and 41 stages and the horizontal axis (1h) is driven at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を42段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by three stages of turbines, etc., with 42 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を43段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 43 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を44段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 44 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を45段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 45 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を46段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps to drive three types of turbines to be assembled and fitted with 46 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を47段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 47 bolts and a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を48段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing is possible with 48 stages of 3 types of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を49段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing is possible with three stages of fitting bolt assembly drive turbines with the same diameter and the same shape for each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を50段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing is possible with 50 stages of 3 types of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を51段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Fully automatic processing is possible with three stages of turbines that are assembled with assembling bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を52段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with three stages of turbines that are assembled with the same diameter and same shape for each paragraph, as well as 52 stages Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を53段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 53 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を54段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 54 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を55段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines, 55 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を56段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with three stages of turbines, etc., with a horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を57段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps with 57 horizontal stages (1h) provided at right angles to the square turbine outer box, and three types of turbines that drive the assembly of bolts with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を58段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box at 58 stages or the like. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を59段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box at 59 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を60段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 60 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を61段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 61 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を62段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 62 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を63段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly driving turbines with 63 stages, etc., with the horizontal axis (1h) at a right angle to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を64段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 64 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を65段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 65 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box at the same diameter for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を66段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three horizontal stages (1h) provided at right angles to a square turbine outer box with three stages of turbines for driving assembly of fitting bolts with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を67段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven by three-stage turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 67 stages, etc., and a horizontal axis (1h) with a square turbine outer box at right angles. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を68段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing a multi-stage hydrogravity geothermal turbine with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that are driven by three types of fitting bolt assembly drive turbines with 68 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を69段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 69 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を70段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing a multi-stage hydrogravity geothermal turbine with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 70 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を71段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and fitted with 71 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を72段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 72 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を73段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of turbines driven by assembly bolt assembly 73 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を74段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery. + Fully automatic processing is possible with the same diameter and shape of each paragraph, and three types of turbines with assembly bolt assembly drive, 74 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を75段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing is possible with the same diameter and shape of each paragraph, and 3 types of turbines with assembly bolt assembly drive, 75 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を76段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with 76 stages of 3 types of turbines that drive the assembly of assembling bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を77段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, and 3 types of turbines that drive assembly bolt assembly 77 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を78段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 78 stages and the horizontal axis (1h) at right angles to the square turbine outer box with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を79段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly driving turbines with 79 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を80段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 80 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を81段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with three stages of turbines, etc., with 81 stages and the horizontal axis (1h) at right angles to the rectangular outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を82段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven by three stages of turbines, etc., with 82 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を83段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a rectangular turbine outer box in 83 stages or the like. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を84段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 84 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を85段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) is installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 85 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を86段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 86 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を87段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 87 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を88段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 88 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box at right angles, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を89段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 89 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を90段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines, 90 stages, etc., with a horizontal axis (1h) at a right angle to the outer casing of the square turbine, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を91段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 91 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を92段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 92 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を93段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 93 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を94段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 94 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を95段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that are driven by three types of fitting bolt assembly driving turbines with 95 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を96段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 96 bolts and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を97段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 97 stages, etc. with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を98段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing is possible with three stages of fitting bolt assembly drive turbines with the same diameter and the same shape for each stage Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を99段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and the same shape for each paragraph, 99 types of 3 types of fitting bolt assembly drive turbines, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を100段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing is possible with 100 stages of 3 types of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を101段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with 101 stages of 3 types of turbines that are assembled and driven by fitting bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を102段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing is possible with 102 stages of 3 types of turbines to drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を103段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 103 stages, etc. with a horizontal axis (1h) perpendicular to a square turbine outer box at right angles, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を104段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 104 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を105段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 105 stages, etc. with a horizontal axis (1h) perpendicular to a square turbine outer box at right angles, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を106段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by assembling bolts with 106 stages and the horizontal axis (1h) at right angles to the rectangular outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を107段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 107 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を108段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 108 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を109段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box at 109 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を110段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) perpendicular to the square turbine outer box at 110 stages and the like. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を111段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box at 111 stages and the like. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を112段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescence engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) perpendicular to a square turbine outer box at 112 stages or the like. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を113段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolts assembly drive turbines with 113 stages and the horizontal axis (1h) perpendicular to the square turbine outer box at right angles with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を114段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines having 114 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を115段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 115 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を116段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that have three stages of 116 bolts and a horizontal axis (1h) that has a square turbine outer box at right angles. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を117段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph, and are driven with 117 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を118段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 118 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を119段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 119 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を120段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 120 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を1段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with one stage and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を2段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with two stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を3段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing is possible with three stages of 3 types of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を4段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of fitting bolt assembly drive turbines in 4 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を5段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing is possible with three stages of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を6段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery. + Fully automatic processing is possible with three stages of turbines that are assembled with assembling bolts with the same diameter and shape of each paragraph. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を7段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing is possible with seven stages of three types of turbines that drive the assembly of bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を8段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly driving turbines with eight stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を9段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 9 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box at the same diameter for each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を10段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly driving turbines with 10 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を11段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 11 stages and the horizontal axis (1h) at right angles to the rectangular turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を12段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three horizontal stages (1h) provided at right angles to a square turbine outer box with 3 stages of turbines that are driven by assembling bolts with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を13段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 13 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を14段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 14 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を15段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) perpendicular to a square turbine outer box at 15 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を16段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) perpendicular to the square turbine outer box at 16 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を17段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 17 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を18段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 18 stages, etc. with a horizontal axis (1h) perpendicular to a square turbine outer box at right angles, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を19段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 19 stages and the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を20段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines, 20 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を21段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven with 21 stages or the like and a horizontal axis (1h) at a right angle to the outer casing of the square turbine. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を22段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with 3 stages of turbines that have the same diameter and substantially the same shape for each paragraph, and 22 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を23段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 23 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を24段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 24 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を25段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 25 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を26段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 26 stages, etc. with a horizontal axis (1h) having a right angle on the outer casing of a square turbine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を27段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 27 stages, etc. with a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を28段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing is possible with 28 stages of 3 types of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を29段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing with the same diameter and the same shape for each paragraph, 29 types of turbines with assembly bolt assembly drive, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を30段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, repeating heat and compression heat recovery + Fully automatic processing, 30 stages of 3 types of fitting bolt assembly drive turbines with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を31段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat recovery by heat and compression + Fully automatic processing is possible with 31 stages of 3 types of turbines that drive assembly by fitting bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を32段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat recovery by heat and compression + Third stages of 3 types of turbines to drive assembly bolts with the same diameter and the same shape for each paragraph to enable full automatic processing Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を33段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that have three stages of fitting bolt assembly drive with 33 stages, etc., with a horizontal axis (1h) provided at a right angle to the outer casing of the square turbine. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を34段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines, 34 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を35段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines with 35 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を36段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three horizontal stages (1h) provided at right angles to a square turbine outer box with 36 stages, etc., with three types of turbines to be assembled and driven with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を37段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph, and three stages of turbines that have 37 stages and a horizontal axis (1h) that has a right angled square outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を38段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 38 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を39段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a 39-stage horizontal axis (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を40段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it close to 1200 degrees Heat production that repeats heating, compression and heat recovery + Fully automatic processing possible 3 stages of fitting bolt assembly drive turbines with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 40 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を41段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 41 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を42段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Heat production by compressing geothermal heating air, approaching 1200 degrees, heat production by repeating heat recovery by heat and compression + Three types of turbines that drive assembly of assembly bolts with the same diameter and shape of each paragraph for full automatic processing Various energy storage cycle coalescence engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 42 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を43段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three stages of fitting bolt assembly drive turbines, 43 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を44段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles equipped with generators and heat pumps that are driven with three types of fitting bolt assembly drive turbines with 44 stages and the horizontal axis (1h) perpendicular to the square turbine outer box at right angles with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を45段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of fitting bolt assembly drive, 45 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を46段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and are driven by assembling and driving three types of turbines with 46 stages and the horizontal axis (1h) at right angles to the square turbine outer box Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を47段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression heat recovery + Fully automatic processing possible Various energy storage cycles provided with generators and heat pumps that are driven with three stages of turbines that have the same diameter and substantially the same shape for each paragraph and that are driven by three types of turbines that have 47 stages and a horizontal axis (1h) that has a right angle square outer casing. Combined organization. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を48段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that are driven by three types of fitting bolt assembly drive turbines with 48 stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を49段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 49 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を50段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of fitting bolt assembly drive turbines with 50 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を51段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines to be assembled and fitted with 51 stages, etc. with a horizontal axis (1h) at a right angle to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を52段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing possible with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and driven with 52 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を53段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing, with the same diameter and shape of each paragraph, 3 types of fitting bolt assembly drive turbines in 53 stages, etc. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を54段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Fully automatic processing is possible with three stages of fitting bolt assembly drive turbines with the same diameter and the same shape for each stage Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動のタービン3種類を55段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat recovery by heating and compressing heat recovery + Fully automatic processing with the same diameter and the same shape for each paragraph 55 types of 3 types of turbines with assembly bolt assembly drive Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を56段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 ° C and repeats heating and compression heat recovery + Fully automatic processing is possible with three stages of turbines that have the same diameter and the same shape for each stage, as well as 56 types of turbines Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を57段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing is possible with 57 stages of 3 types of turbines that assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電海水温度上昇0CO2排気僅少で発電量増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を58段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times hydrogravity geothermal power generation Seawater temperature rise 0CO2 exhaust is small and power generation is increased + pumping equipment (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal heating 3 types of turbines that drive assembly bolts with the same diameter and approximately the same shape for each paragraph in a fully automatic process equipped with heat production + heat retention device that repeats heating and compression heat recovery by compressing the air close to 1200 degrees Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電海水温度上昇0CO2排気僅少で発電量増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を59段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times hydrogravity geothermal power generation Seawater temperature rise 0CO2 exhaust is small and power generation is increased + pumping equipment (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal heating 59 stages of 3 types of turbines that drive the assembly bolts with the same diameter and the same shape for each paragraph so as to be fully automatic processing with heat production + heat insulation equipment that repeats heating and compression heat recovery by compressing the air close to 1200 degrees Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電海水温度上昇0CO2排気僅少で発電量増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を60段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times hydrogravity geothermal power generation Seawater temperature rise 0CO2 exhaust is small and power generation is increased + pumping equipment (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal heating 60 stages of 3 types of turbines that drive the assembly bolts with the same diameter and approximately the same shape for each paragraph so that they can be fully automatic processed with heat production and heat insulation equipment that repeats heating and compression heat recovery by compressing the air close to 1200 degrees Various energy storage cycle coalescence engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電海水温度上昇0CO2排気僅少で発電量増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を61段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times hydrogravity geothermal power generation Seawater temperature rise 0CO2 exhaust is small and power generation is increased + pumping equipment (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal heating 61 types of turbines that drive the assembly bolts with the same diameter and the same shape for each paragraph so that it can be fully automatic processed with heat production and high-temperature heat retention equipment that repeats heating and compression heat recovery by compressing the air close to 1200 degrees Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電海水温度上昇0CO2排気僅少で発電量増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を62段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times hydrogravity geothermal power generation Seawater temperature rise 0CO2 exhaust is small and power generation is increased + pumping equipment (1J) is installed at the corner of the square turbine outer box to save and save water + geothermal heating 62 types of turbines that are fitted with assembly bolts and driven assembling bolts with the same diameter and shape of each paragraph in a fully automatic process equipped with heat production + heat retention equipment that repeats heating and compressing heat recovery by compressing the air at 1200 degrees Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を63段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. A generator and a heat pump are installed to drive three-stage turbines with the same diameter and approximately the same shape for each fully automatic machining. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を64段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump are provided that are driven by three types of turbines that are assembled with assembling bolts with the same diameter and substantially the same shape for each stage so that they can be automatically machined. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を65段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided with 65 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を66段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device A generator and a heat pump are provided to drive three types of turbines that have the same diameter and substantially the same shape for each stage and are equipped with 66 bolts and a horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を67段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. A generator and a heat pump are provided to drive three types of turbines that have the same diameter and approximately the same shape for each stage and are equipped with 67 bolts, etc., with a horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を68段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. A generator and a heat pump are provided that are driven by three-stage turbines with 68-stage horizontal shafts (1h) at right angles to a square-shaped turbine outer box so that they can be fully automated and processed with the same diameter and shape of each paragraph. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を設けた全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を69段に設けて1000倍発電量を狙う各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square-type turbine outer box to store the water in a rising manner. + Compressed geothermal heating air is brought close to 1200 degrees. Various energy storage cycle coalescing engines aiming for 1000 times power generation by providing three stages of turbines that are assembled and driven by fitting bolts with the same diameter and shape of each paragraph so that they can be fully automated. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を70段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each machining stage and are equipped with 70 types of turbines and a horizontal axis (1h) at right angles to a square turbine outer box are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を71段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device A generator and a heat pump are provided to drive three types of turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 71 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box at right angles. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を72段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. A generator and a heat pump are provided that are driven by three types of turbines that are assembled in assembling bolts with the same diameter and substantially the same shape for each stage and are equipped with 72 stages, etc., with a horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を73段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled to approximately the same diameter in diameter and fitted with 73 stages, etc. with a horizontal axis (1h) at a right angle to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を74段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery with additional air + Fully automatic processing equipped with a heat retaining device The same diameter per paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled and driven assembling bolts in nearly the same shape and are driven with 74 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を75段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery for another air + Fully automatic processing equipped with a heat retention device Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in substantially the same shape and fitted with 75 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を76段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air and brought it close to 1200 ° C, heat production by repeating heating and compression heat recovery + Fully automatic processing with a high temperature heat retention device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 76 stages or the like and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を77段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 ° C, repeated heating and heat recovery for another air + Fully automatic processing with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 77 stages or the like and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を78段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 78 stages or the like and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を79段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 79 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を80段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 80 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を81段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 81 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を82段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 82 stages or the like and a horizontal axis (1h) provided at a right angle to a rectangular turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を83段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery with additional air + Fully automatic processing equipped with a heat retaining device The same diameter per paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines that are assembled in substantially the same shape and assembled with 83 stages, etc., having a horizontal axis (1h) with a rectangular turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を84段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery with additional air + Fully automatic processing equipped with a heat retaining device The same diameter per paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in substantially the same shape and having 84 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を85段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery with additional air + Fully automatic processing equipped with a heat retaining device The same diameter per paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled and driven assembling bolts in nearly the same shape and having a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を86段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery with additional air + Fully automatic processing equipped with a heat retaining device The same diameter per paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled and driven assembling bolts in nearly the same shape and having 86 stages or the like and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を87段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery with additional air + Fully automatic processing equipped with a heat retaining device The same diameter per paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled and driven assembling bolts in approximately the same shape with 87 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を88段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery for another air + Fully automatic processing equipped with a heat retention device Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled and driven assembling bolts in approximately the same shape and having a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を89段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery for another air + Fully automatic processing equipped with a heat retention device Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled and driven assembling bolts in approximately the same shape with 89 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を90段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery for another air + Fully automatic processing equipped with a heat retention device Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled and driven assembling bolts in approximately the same shape and driven with 90 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を91段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery for another air + Fully automatic processing equipped with a heat retention device Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled and driven assembling bolts in substantially the same shape and having a horizontal axis (1h) at right angles to a square turbine outer box at 91 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を92段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery for another air + Fully automatic processing equipped with a heat retention device Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines to be assembled and driven in approximately the same shape and having 92 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を93段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air and brought it close to 1200 ° C, heat production by repeating heating and compression heat recovery + Fully automatic processing with a high temperature heat retention device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that have substantially the same diameter as the fitting bolt assembly driving 93 stages and the horizontal axis (1h) at a right angle to the outer casing of the square turbine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を94段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air and brought it close to 1200 ° C, heat production by repeating heating and compression heat recovery + Fully automatic processing with a high temperature heat retention device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in the same shape of diameter and assembled with 94 bolts and a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を95段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air and brought it close to 1200 ° C, heat production by repeating heating and compression heat recovery + Fully automatic processing with a high temperature heat retention device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 95 stages or the like and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を96段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air and brought it close to 1200 ° C, heat production by repeating heating and compression heat recovery + Fully automatic processing with a high temperature heat retention device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with substantially the same diameter and having 96 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を97段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air and brought it close to 1200 ° C, heat production by repeating heating and compression heat recovery + Fully automatic processing with a high temperature heat retention device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and 97 stages or the like and a horizontal axis (1h) having a rectangular turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を98段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 ° C, repeated heating and heat recovery for another air + Fully automatic processing with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 98 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を99段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 ° C, repeated heating and heat recovery for another air + Fully automatic processing with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with almost the same diameter and 99 stages or the like and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を100段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 ° C, repeated heating and heat recovery for another air + Fully automatic processing with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and 100 stages and the horizontal axis (1h) is provided at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を101段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 ° C, repeated heating and heat recovery for another air + Fully automatic processing with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in assembling bolts with substantially the same diameter and 101 stages, etc., with a horizontal axis (1h) provided at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を102段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 ° C, repeated heating and heat recovery for another air + Fully automatic processing with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts of approximately the same diameter and having 102 stages or the like and a horizontal axis (1h) having a rectangular turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を103段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 103 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を104段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Three types of turbines that can be assembled automatically and fitted with assembly bolts with the same diameter and the same shape for each paragraph so that they can be fully automated Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with 104 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を105段に設けた保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を多段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery from heat and compression + Three types of turbines that are equipped with a heat retaining device and can be assembled automatically and fitted with bolts assembling bolts with the same diameter for each paragraph Are equipped with a heat retaining device provided in 105 stages, and are equipped with three types of turbines that are assembled and driven by assembly bolts with the same diameter and substantially the same shape for each paragraph, and the horizontal axis (1h) is provided at right angles to a square turbine outer box. Various energy storage cycle coalescing engines with generators and heat pumps to drive them. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を106段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a high-temperature heat retaining device and that can be fully automated and can be assembled to fit bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps with 106 stages, etc., and a horizontal axis (1h) provided with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を107段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 107 horizontal stages (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を108段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. A generator and a heat pump are installed to drive three types of turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 108 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box at right angles. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を109段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each of the automatically-processable bolts and are assembled with 109 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を110段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump are provided to drive three types of turbines that are assembled into assembly bolts that have the same diameter and substantially the same shape for each stage and that are driven by 110 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を111段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, with 111 stages, etc. and a horizontal axis (1h) at right angles to the square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を112段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for each stage, 112 stages, etc. with horizontal axis (1h) at right angles to square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を113段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retention device Assembling bolt assembly drive with almost the same shape for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps to drive three types of turbines with 113 stages or the like and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を114段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy conservation cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines having 114 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を115段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three turbines with 115 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を116段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it closer to 1200 ° C Heat production that repeats heat and compression heat recovery + Fully automatic processing equipped with high-temperature heat retention device Assembling bolt assembly drive with nearly the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of turbines with 116 stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を117段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air, bringing it closer to 1200 degrees, heat production that repeats heating, compression and heat recovery + Fully automatic processing with a heat retention device is possible. Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with 117 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を118段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines that have the same diameter and almost the same shape for each stage, 118 stages, etc., and the horizontal axis (1h) is perpendicular to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を119段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three types of turbines to be assembled and assembled with the same diameter and substantially the same shape for each of the automatic machining stages and having a horizontal axis (1h) at right angles to the rectangular turbine outer box at 119 stages and the like are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を120段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage so that they can be automatically machined are provided with 120 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を1段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage so that they can be fully automatically machined. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を2段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage so that they can be fully automatically machined. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を3段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery. + Fully automatic processing equipped with a heat retention device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that have the same diameter and substantially the same shape and are fitted with three types of turbines that are driven in three stages, etc. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を4段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached to 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in the same shape in diameter and assembled with four types of turbines in four stages and the horizontal axis (1h) at a right angle to the outer casing of the square turbine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を5段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that are driven with three horizontal turbines (1h) provided at right angles to a square turbine outer box at five stages, etc., with three types of turbines that are assembled in the same shape as the fitting bolts. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を6段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing the geothermal heating air, approaching 1200 degrees and repeating the heat and compression heat recovery. + Fully automatic processing equipped with a high temperature heat retaining device Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, assembling bolts and driving with 6 stages and the horizontal axis (1h) at right angles to the square turbine outer box . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を7段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and save water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, assembling bolts and driving with 7 stages, etc., and a horizontal axis (1h) having a square turbine outer box at right angles . タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を8段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 8 types of horizontal shafts (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を9段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Three types of turbines that can be assembled automatically and fitted with assembly bolts with the same diameter and the same shape for each paragraph so that they can be fully automated Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having a horizontal axis (1h) at right angles to a square turbine outer box in 9 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を10段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery from heat and compression + Three types of turbines that are equipped with a heat retaining device and can be assembled automatically and fitted with bolts assembling bolts with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box at 10 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を11段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a high-temperature heat retaining device and that can be fully automated and can be assembled to fit bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 11 horizontal stages (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を12段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box with 12 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を13段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. A generator and a heat pump are installed to drive three-stage turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 13 stages, etc., with a horizontal axis (1h) at a right angle to the outer casing of the square turbine. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を14段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump are provided to drive three types of turbines that have the same diameter and substantially the same shape for each stage so that they can be automatically machined, and are equipped with 14 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を15段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and are equipped with 15 bolts and a horizontal axis (1h) at right angles to the square turbine outer box are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を16段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, with 16 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を17段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for each stage, 17 stages, etc. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を18段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retention device Assembling bolt assembly drive with almost the same shape for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with 18 stages etc. and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を19段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines with 19 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を20段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with 20 stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を21段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it closer to 1200 ° C Heat production that repeats heat and compression heat recovery + Fully automatic processing equipped with high-temperature heat retention device Assembling bolt assembly drive with nearly the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three turbines with 21 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を22段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air, bringing it closer to 1200 degrees, heat production that repeats heating, compression and heat recovery + Fully automatic processing with a heat retention device is possible. Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three turbines with 22 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を23段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, with 23 stages, etc. and a horizontal axis (1h) at right angles to the square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を24段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and are equipped with 24 bolts and a horizontal axis (1h) at right angles to the square turbine outer box are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を25段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided with 25 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を26段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 26 stages, etc., with a horizontal axis (1h) at a right angle to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を27段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. Provided with generator and heat pump to drive 3 types of turbines to be assembled and assembled with bolts assembled to the same diameter and shape of the same diameter for each stage in 27 steps, etc. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を28段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery. + Fully automatic processing equipped with a heat retention device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines with the same diameter and substantially the same shape, and three types of turbines that are assembled and driven with 28 stages and the horizontal axis (1h) at right angles to the square turbine outer box. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を29段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached to 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with substantially the same diameter and having 29 stages or the like and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を30段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in assembling bolts with substantially the same diameter and 30 stages, etc., with a horizontal axis (1h) provided at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を31段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing the geothermal heating air, approaching 1200 degrees and repeating the heat and compression heat recovery. + Fully automatic processing equipped with a high temperature heat retaining device Various types of energy storage cycle coalescence engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, and three types of turbines to be assembled and driven with 31 stages and the horizontal axis (1h) at right angles to the square turbine outer box . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を32段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and save water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that have the same diameter and substantially the same shape and are fitted with assembling bolts and 32 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box . タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を33段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy conservation cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle of a square turbine outer box and 33 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を34段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Three types of turbines that can be assembled automatically and fitted with assembly bolts with the same diameter and the same shape for each paragraph so that they can be fully automated Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box at 34 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を35段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery from heat and compression + Three types of turbines that are equipped with a heat retaining device and can be assembled automatically and fitted with bolts assembling bolts with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle of a square turbine outer box and 35 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を36段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a high-temperature heat retaining device and that can be fully automated and can be assembled to fit bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle of square turbine outer box and 36 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を37段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box and 37 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を38段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, with 38 stages and so on, with a horizontal axis (1h) at right angles to a square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を39段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three-stage turbines, which have the same diameter and substantially the same shape for each stage, are equipped with 39 stages, etc., and the horizontal axis (1h) is perpendicular to the square turbine outer box so that it can be automatically processed. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を40段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump are provided to drive three types of turbines that have the same diameter and substantially the same shape for each stage so that they can be machined automatically and have 40 horizontal stages (1h) at the right angle of the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を41段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, with 41 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を42段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. A generator and a heat pump are installed to drive three types of turbines that are assembled with assembling bolts with the same diameter and approximately the same shape for each fully automatic machining, with 42 stages, etc., and a horizontal axis (1h) provided at a right angle to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を43段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retention device Assembling bolt assembly drive with almost the same shape for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with 43 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を44段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines having 44 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を45段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with 45 stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を46段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it closer to 1200 ° C Heat production that repeats heat and compression heat recovery + Fully automatic processing equipped with high-temperature heat retention device Assembling bolt assembly drive with nearly the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines having 46 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を47段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air, bringing it closer to 1200 degrees, heat production that repeats heating, compression and heat recovery + Fully automatic processing with a heat retention device is possible. Various energy storage cycle coalescing engines equipped with generators and heat pumps to drive three types of turbines with 47 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を48段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and approximately the same shape for each stage, with 48 stages, etc., with a horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を49段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three-stage turbines, which have the same diameter and substantially the same shape for each stage so that they can be automatically machined, are provided with 49 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を50段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines with the same diameter and substantially the same shape for each of the automatically machined bolts and having three horizontal stages (1h) at right angles to the square turbine outer box are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を51段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device Provided with generator and heat pump to drive 3 types of turbines, which have the same diameter and same shape for each paragraph, and 51 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を52段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, with 52 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を53段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery. + Fully automatic processing equipped with a heat retention device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, and three stages of turbines for driving assembly of bolts and having a horizontal axis (1h) at right angles to the square turbine outer box. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を54段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached to 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with substantially the same diameter and 54 horizontal stages (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を55段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in assembling bolts with approximately the same diameter and 55 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を56段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing the geothermal heating air, approaching 1200 degrees and repeating the heat and compression heat recovery. + Fully automatic processing equipped with a high temperature heat retaining device Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, and three types of turbines that are assembled and driven with 56 stages and the horizontal axis (1h) at right angles to the square turbine outer box. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を57段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and save water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, and three types of turbines to be assembled and driven with 57 stages and the horizontal axis (1h) at right angles to the square turbine outer box. . タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を58段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle of square turbine outer box and 58 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を59段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Three types of turbines that can be assembled automatically and fitted with assembly bolts with the same diameter and the same shape for each paragraph so that they can be fully automated Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) having a right angle on the square turbine outer box and 59 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を60段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery from heat and compression + Three types of turbines that are equipped with a heat retaining device and can be assembled automatically and fitted with bolts assembling bolts with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box and 60 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を61段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a high-temperature heat retaining device and that can be fully automated and can be assembled to fit bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 61 horizontal stages (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を62段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box and 62 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を63段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. A generator and a heat pump are installed to drive three-stage turbines with the same diameter and approximately the same shape for each fully automatic machining. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を64段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump are provided that are driven by three types of turbines that are assembled with assembling bolts with the same diameter and substantially the same shape for each stage so that they can be automatically machined. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を65段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided with 65 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を66段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device A generator and a heat pump are provided to drive three types of turbines that have the same diameter and substantially the same shape for each stage and are equipped with 66 bolts and a horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を67段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. A generator and a heat pump are provided to drive three types of turbines that have the same diameter and approximately the same shape for each stage and are equipped with 67 bolts, etc., with a horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を68段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retention device Assembling bolt assembly drive with almost the same shape for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that are driven with three types of turbines having 68 stages or the like and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を69段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with 69 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を70段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines with 70 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を71段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it closer to 1200 ° C Heat production that repeats heat and compression heat recovery + Fully automatic processing equipped with high-temperature heat retention device Assembling bolt assembly drive with nearly the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three turbines with 71 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を72段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air, bringing it closer to 1200 degrees, heat production that repeats heating, compression and heat recovery + Fully automatic processing with a heat retention device is possible. Various energy storage cycle coalescing engines equipped with generators and heat pumps to drive three types of turbines with 72 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を73段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines to be assembled and fitted with assembly bolts with the same diameter and almost the same shape for full automatic machining, with 73 stages and so on, with a horizontal axis (1h) at right angles to the square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を74段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump are provided to drive three types of turbines that have the same diameter and substantially the same shape for each stage so that they can be automatically machined, and that have 74 stages, etc., and a horizontal axis (1h) that has a square turbine outer box at right angles. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を75段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump are provided to drive three types of turbines that have the same diameter and substantially the same shape for each stage so that they can be automatically machined, and are equipped with 75 stages, etc., with a horizontal axis (1h) at a right angle to the rectangular turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を76段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for full automatic machining, 76 stages etc. with horizontal axis (1h) right angled square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を77段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. Provided with generator and heat pump to drive 3 types of turbines to be assembled and fitted with assembly bolts with the same diameter and almost the same shape for every automatic machining, 77 stages, etc. with horizontal axis (1h) at right angles to square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を78段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery. + Fully automatic processing equipped with a heat retention device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, and three types of turbines to be assembled and driven with 78 stages and the horizontal axis (1h) at right angles to the square turbine outer box. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を79段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached to 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 79 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を80段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 80 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を81段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing the geothermal heating air, approaching 1200 degrees and repeating the heat and compression heat recovery. + Fully automatic processing equipped with a high temperature heat retaining device Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines of the same diameter and substantially the same shape, and three types of turbines that are assembled and driven with 81 stages and the horizontal axis (1h) at right angles to the square turbine outer box . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を82段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and save water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, and three types of turbines for driving assembly of assembling bolts and having a horizontal axis (1h) at right angles to a square turbine outer box. . タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を83段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy conservation cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a rectangular turbine outer box with 83 stages and so on. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を84段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Three types of turbines that can be assembled automatically and fitted with assembly bolts with the same diameter and the same shape for each paragraph so that they can be fully automated Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at right angles to 84 stages and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を85段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery from heat and compression + Three types of turbines that are equipped with a heat retaining device and can be assembled automatically and fitted with bolts assembling bolts with the same diameter for each paragraph Various energy storage cycle coalescing engines provided with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box at 85 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を86段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a high-temperature heat retaining device and that can be fully automated and can be assembled to fit bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 86 horizontal stages (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を87段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy conservation cycle coalescing engines equipped with generators and heat pumps that are driven with 87 horizontal stages (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を88段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, 88 stages etc. with horizontal axis (1h) at right angle to square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を89段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided with 89 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を90段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each of the automatically machined bolts and that have 90 stages or the like and a horizontal axis (1h) perpendicular to the rectangular turbine outer box are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を91段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and the same shape for each fully automatic machining, with 91 stages, etc., and a horizontal axis (1h) at right angles to the square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を92段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. A generator and a heat pump are provided that are driven by three-stage turbines that have the same diameter and substantially the same shape for each stage and are equipped with 92 stages, etc., with a horizontal axis (1h) at a right angle to the rectangular outer casing. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を93段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retention device Assembling bolt assembly drive with almost the same shape for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps to drive three types of turbines with 93 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を94段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with 94 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を95段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three turbines with 95 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を96段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it closer to 1200 ° C Heat production that repeats heat and compression heat recovery + Fully automatic processing equipped with high-temperature heat retention device Assembling bolt assembly drive with nearly the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with 96 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を97段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air, bringing it closer to 1200 degrees, heat production that repeats heating, compression and heat recovery + Fully automatic processing with a heat retention device is possible. Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three turbines with 97 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を98段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and approximately the same shape for every automatic machining, 98 stages, etc. with horizontal axis (1h) at right angles to square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を99段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided with 99 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を100段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and heat pump for driving three-stage turbines that have the same diameter and approximately the same shape for each stage and that can be automatically machined are equipped with 100 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を101段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device Provided with generator and heat pump to drive three types of turbines that have the same diameter and substantially the same shape for each stage and can be assembled into fully automatic machining, with 101 stages, etc. and a horizontal axis (1h) at right angles to a square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を102段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. A generator and a heat pump are installed to drive three types of turbines that have the same diameter and substantially the same shape for each stage and can be assembled fully automatically. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を103段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery. + Fully automatic processing equipped with a heat retention device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines with the same diameter and substantially the same shape and 103 bolts and a horizontal axis (1h) provided at right angles to the square turbine outer box. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を104段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached to 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled to fit bolts with substantially the same diameter, with 104 stages and the horizontal axis (1h) provided at a right angle to the outer casing of the square turbine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を105段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and 105 stages or the like, and the horizontal axis (1h) is driven at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を106段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing a multi-stage hydrogravity geothermal turbine with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing the geothermal heating air, approaching 1200 degrees and repeating the heat, compression and heat recovery. + Fully automatic processing equipped with a high temperature heat retaining device. Various types of energy storage cycle coalescence engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, assembling bolts for driving and having 106 stages and the horizontal axis (1h) at right angles to the square turbine outer box. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を107段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing a multi-stage hydrogravity geothermal turbine with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and save water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that have three types of turbines with the same diameter and substantially the same shape, and three types of turbines that are assembled and driven with 107 stages and a horizontal axis (1h) at right angles to the square turbine outer box. . タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を108段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy conservation cycle coalescing engines equipped with generators and heat pumps that are driven with 108 horizontal stages (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を109段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Three types of turbines that can be assembled automatically and fitted with assembly bolts with the same diameter and the same shape for each paragraph so that they can be fully automated Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) having a right angle of square turbine outer box at 109 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を110段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery from heat and compression + Three types of turbines that are equipped with a heat retaining device and can be assembled automatically and fitted with bolts assembling bolts with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a 110-stage horizontal axis (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を111段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a high-temperature heat retaining device and that can be fully automated and can be assembled to fit bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having a horizontal axis (1h) at right angles to a square turbine outer box with 111 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を112段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy conservation cycle coalescing engines equipped with generators and heat pumps that are driven with 112 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を113段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines that have the same diameter and almost the same shape for each stage, and have 113 stages, etc., with a horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を114段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided with 114 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を115段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump are provided to drive three types of turbines that have the same diameter and substantially the same shape for each stage so that they can be automatically machined, and are equipped with 115 stages and the horizontal axis (1h) at a right angle to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を116段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device A generator and a heat pump are provided to drive the three types of turbines that have the same diameter and substantially the same shape for each stage and are equipped with 116 bolts and a horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を117段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. A generator and a heat pump are installed to drive three-stage turbines with the same diameter and approximately the same shape for each fully-automated machining, with 117 stages, etc., equipped with a horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を118段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retention device Assembling bolt assembly drive with almost the same shape for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines having 118 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を119段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with 119 stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を120段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with 120 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を1段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it closer to 1200 ° C Heat production that repeats heat and compression heat recovery + Fully automatic processing equipped with high-temperature heat retention device Assembling bolt assembly drive with nearly the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps to drive three types of turbines with one stage and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を2段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air, bringing it closer to 1200 degrees, heat production that repeats heating, compression and heat recovery + Fully automatic processing with a heat retention device is possible. Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with two stages etc. and a horizontal axis (1h) having a rectangular turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を3段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage and are equipped with three horizontal stages (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を4段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage to be automatically machined, with four stages, etc., and a horizontal axis (1h) at a right angle to the rectangular turbine outer box are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を5段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided with five stages, etc., and the horizontal axis (1h) is perpendicular to the rectangular turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を6段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device A generator and heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage in a fully automatic form, with 6 stages, etc., and a horizontal axis (1h) perpendicular to the square turbine outer box are installed. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を7段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage and are equipped with 7 stages, etc., and the horizontal axis (1h) is perpendicular to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を8段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery. + Fully automatic processing equipped with a heat retention device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines of the same diameter and approximately the same shape, and three types of turbines that are assembled and driven by 8 bolts and a horizontal axis (1h) with a square turbine outer box at right angles. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を9段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached to 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with substantially the same diameter and having nine stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を10段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with substantially the same diameter and having 10 stages or the like and a horizontal axis (1h) provided at a right angle to a rectangular turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を11段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing the geothermal heating air, approaching 1200 degrees and repeating the heat, compression and heat recovery. + Fully automatic processing equipped with a high temperature heat retaining device. Various types of energy storage cycle coalescence engines equipped with generators and heat pumps that have three types of turbines with the same diameter and substantially the same shape and are fitted with three stages of fitting bolts and driven with 11 stages and the horizontal axis (1h) at right angles to the square turbine outer box. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を12段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and save water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines with the same diameter and substantially the same shape, as well as three types of turbines that drive the assembly of assembling bolts in 12 stages, etc. . タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を13段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a 13-stage type and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を設けた全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を14段に設けて1000倍発電量を狙う各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat recovery from heat and compression + Turbine 3 that is fitted with assembled bolts with the same diameter and shape of each paragraph so that it can be fully automated with a heat retaining device Various energy storage cycle coalescence engines aiming for 1000 times power generation with 14 types. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を15段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery from heat and compression + Three types of turbines that are equipped with a heat retaining device and can be assembled automatically and fitted with bolts assembling bolts with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) having a right angle on a square turbine outer box in 15 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を16段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a high-temperature heat retaining device and that can be fully automated and can be assembled to fit bolts with the same diameter and shape of each paragraph Various energy conservation cycle coalescing engines equipped with generators and heat pumps that are driven with a 16-stage type horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を17段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 17 horizontal stages (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を18段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Configuration and method for accelerating the hydro-gravity power generated by 2 to 26 times the turbine blade cross-section (4X) vertically + + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save the water + geothermal heating 18 stages of 3 types of turbines that drive the assembly bolts with the same diameter and almost the same shape for each stage so that they can be fully automatic processed with heat production + heat retention equipment that repeats heating and compression heat recovery by compressing air and approaching 1200 degrees Various energy storage cycle coalescence engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を19段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Configuration and method for accelerating the hydro-gravity power generated by 2 to 26 times the turbine blade cross-section (4X) vertically + + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save the water + geothermal heating Heat production that repeats heating and compression heat recovery by compressing air close to 1200 ° C + 19 stages of 3 types of turbines that drive assembly assembly bolts with the same diameter and approximately the same shape for each paragraph so as to be fully automatic processing equipped with a heat retaining device Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を20段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Configuration and method for accelerating the hydro-gravity power generated by 2 to 26 times the turbine blade cross-section (4X) vertically + + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save the water + geothermal heating Heat production that repeats heating and compressing heat recovery by compressing air and bringing it closer to 1200 degrees + heat retaining equipment equipped with a heat retaining device 20 stages of 3 types of turbines that drive the assembly of bolts with the same diameter and the same shape for each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を21段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Configuration and method for accelerating the hydro-gravity power generated by 2 to 26 times the turbine blade cross-section (4X) vertically + + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save the water + geothermal heating 21 stages of 3 types of turbines that drive the assembly bolts with the same diameter and the same shape for each stage in a fully automatic process with heat production that repeats heating and compression heat recovery by compressing air, approaching 1200 degrees Various energy storage cycle coalescence engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を22段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Configuration and method for accelerating the hydro-gravity power generated by 2 to 26 times the turbine blade cross-section (4X) vertically + + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save the water + geothermal heating 22 stages of 3 types of turbines that drive the assembly bolts with the same diameter and the same shape for each paragraph so as to be fully automatic processing with heat production + heat retention equipment that repeats heating and compression heat recovery by compressing air and approaching 1200 degrees Various energy storage cycle coalescence engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を23段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Configuration and method for accelerating the hydro-gravity power generated by 2 to 26 times the turbine blade cross-section (4X) vertically + + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save the water + geothermal heating 23 stages of 3 types of turbines that drive the assembly bolts with the same diameter and almost the same shape for each stage so that it can be fully automatic processed with heat production + heat retention equipment that repeats heating and compression heat recovery by compressing air and approaching 1200 degrees Various energy storage cycle coalescence engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を24段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Configuration and method for accelerating the hydro-gravity power generated by 2 to 26 times the turbine blade cross-section (4X) vertically + + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save the water + geothermal heating Heat production that compresses air close to 1200 degrees and repeats heat recovery by heat and compression heat recovery + Fully automatic processing equipped with a heat retention device 24 stages of 3 types of turbines that are assembled with the same diameter and shape of each paragraph and assembled bolts are driven. Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を25段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Configuration and method for accelerating the hydro-gravity power generated by 2 to 26 times the turbine blade cross-section (4X) vertically + + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save the water + geothermal heating Heat production that repeats heating and compressing heat recovery by compressing air close to 1200 degrees + heat generation equipped with a heat retaining device Fully automatic processing is possible with 25 stages of 3 types of turbines that assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を26段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Configuration and method for accelerating the hydro-gravity power generated by 2 to 26 times the turbine blade cross-section (4X) vertically + + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save the water + geothermal heating Heat production that compresses air close to 1200 degrees and repeats heating and compression heat recovery + high-temperature heat insulation device equipped with 26 stages of 3 types of turbines that drive the assembly of bolts with the same diameter and the same shape for each stage. Various energy storage cycle coalescence engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を27段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Configuration and method for accelerating the hydro-gravity power generated by 2 to 26 times the turbine blade cross-section (4X) vertically + + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save the water + geothermal heating 27 stages of 3 types of turbines that drive the assembly of bolts with the same diameter and the same shape for each stage so that it can be fully automatic processed with heat production + heat retention equipment that compresses air and brings it close to 1200 degrees and repeats heating and heat recovery. Various energy storage cycle coalescence engines provided with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を28段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that have the same diameter as the fitting bolt assembly driven in 28 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を29段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery with additional air + Fully automatic processing equipped with a heat retaining device The same diameter per paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines to be assembled and driven with substantially the same shape and having 29 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を30段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery for another air + Fully automatic processing equipped with a heat retention device Various energy storage cycle coalescing engines equipped with generators and heat pumps that have three types of turbines to be assembled and driven as substantially the same shape and are driven with 30 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を31段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air and brought it close to 1200 ° C, heat production by repeating heating and compression heat recovery + Fully automatic processing with a high temperature heat retention device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in assembling bolts with approximately the same diameter and 31 stages, etc., with a horizontal axis (1h) provided at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を32段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 ° C, repeated heating and heat recovery for another air + Fully automatic processing with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with substantially the same diameter and having 32 stages or the like and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を33段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three horizontal stages (1h) at right angles to a square turbine outer box, with three types of turbines that are assembled in assembling bolts with substantially the same diameter. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を34段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 34 stages or the like and a horizontal axis (1h) with a rectangular turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を35段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in assembling bolts with approximately the same diameter and 35 stages and a horizontal axis (1h) provided at a right angle to the outer casing of a square turbine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を36段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with substantially the same diameter and having 36 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を37段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with substantially the same diameter, 37 stages, etc., and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を38段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery with additional air + Fully automatic processing equipped with a heat retaining device The same diameter per paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in nearly the same shape and assembled with 38 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を39段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery with additional air + Fully automatic processing equipped with a heat retaining device The same diameter per paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines to be assembled and fitted with substantially the same shape and 39 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を40段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery with additional air + Fully automatic processing equipped with a heat retaining device The same diameter per paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in almost the same shape and assembled with 40 stages, etc., having a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を41段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery with additional air + Fully automatic processing equipped with a heat retaining device The same diameter per paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled and driven assembling bolts in substantially the same shape and having 41 stages or the like and a horizontal axis (1h) provided with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を42段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery with additional air + Fully automatic processing equipped with a heat retaining device The same diameter per paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines that are assembled in substantially the same shape and are assembled with 42 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を43段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery for another air + Fully automatic processing equipped with a heat retention device Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled and driven assembling bolts in approximately the same shape and having 43 stages or the like and a horizontal axis (1h) having a rectangular turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を44段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery for another air + Fully automatic processing equipped with a heat retention device Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines that are assembled and driven assembling bolts in approximately the same shape and having 44 stages or the like and a horizontal axis (1h) provided at a right angle to a rectangular turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を45段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery for another air + Fully automatic processing equipped with a heat retention device Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines that are assembled in substantially the same shape and fitted with 45 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を46段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery for another air + Fully automatic processing equipped with a heat retention device Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in substantially the same shape and assembled with 46 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を47段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery for another air + Fully automatic processing equipped with a heat retention device Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines that are assembled in almost the same shape and assembled with 47 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を48段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air and brought it close to 1200 ° C, heat production by repeating heating and compression heat recovery + Fully automatic processing with a high temperature heat retention device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with substantially the same diameter and 48 stages and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を49段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air and brought it close to 1200 ° C, heat production by repeating heating and compression heat recovery + Fully automatic processing with a high temperature heat retention device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with substantially the same diameter and having 49 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を50段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air and brought it close to 1200 ° C, heat production by repeating heating and compression heat recovery + Fully automatic processing with a high temperature heat retention device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in assembling bolts with approximately the same diameter and 50 stages and a horizontal axis (1h) provided at a right angle to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を51段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air and brought it close to 1200 ° C, heat production by repeating heating and compression heat recovery + Fully automatic processing with a high temperature heat retention device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in assembling bolts with approximately the same diameter and 51 stages, etc., with a horizontal axis (1h) provided at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を52段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air and brought it close to 1200 ° C, heat production by repeating heating and compression heat recovery + Fully automatic processing with a high temperature heat retention device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having a horizontal axis (1h) at right angles to a square turbine outer box at 52 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を53段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 ° C, repeated heating and heat recovery for another air + Fully automatic processing with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in the same shape in diameter and fitted with assembly bolts in 53 stages and the horizontal axis (1h) at a right angle to the outer casing of the square turbine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を54段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 ° C, repeated heating and heat recovery for another air + Fully automatic processing with a heat retaining device Same for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with substantially the same diameter and 54 horizontal stages (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を55段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 ° C, repeated heating and heat recovery for another air + Fully automatic processing with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in assembling bolts with approximately the same diameter and 55 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を56段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 ° C, repeated heating and heat recovery for another air + Fully automatic processing with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with substantially the same diameter and having 56 stages or the like and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を57段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 ° C, repeated heating and heat recovery for another air + Fully automatic processing with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in the same shape in diameter with 57 bolts and a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を設けた全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を58段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal heating air, approached to 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing with heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 58 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を設けた全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を59段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal heating air, approached to 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing with heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and 59 stages, etc., with a horizontal axis (1h) provided at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を設けた全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を60段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal heating air, approached to 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing with heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in assembling bolts with approximately the same diameter and 60 stages and the horizontal axis (1h) at a right angle to the outer casing of the square turbine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を設けた全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を61段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal heating air, approached to 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing with heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with substantially the same diameter and 61 stages and the horizontal axis (1h) is provided at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を設けた全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を62段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal heating air, approached to 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing with heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and 62 horizontal stages (1h) with a horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差を可能な限り上昇+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を63段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Raise the head as much as possible with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it closer to 1200 degrees and heat another air Heat production with repeated recovery of compression heat + Fully automatic processing equipped with a heat retention device 3 stages of turbines to be assembled and fitted with assembling bolts with the same diameter and shape of each paragraph to 63 stages etc. The horizontal axis (1h) is a square turbine outer box Various energy storage cycle coalescing engines with generators and heat pumps that are driven at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差を可能な限り上昇+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を64段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Raise the head as much as possible with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it closer to 1200 degrees and heat another air Heat production that repeats compression heat recovery + Fully automatic processing equipped with a heat retaining device The same diameter and diameter of each paragraph are set to approximately the same shape. Various energy storage cycle coalescing engines with generators and heat pumps that are equipped and driven. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差を可能な限り上昇+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を65段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Raise the head as much as possible with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it closer to 1200 degrees and heat another air Heat production with repeated recovery of compression heat + heat retention equipment equipped with fully automatic processing, with the same diameter and shape of each paragraph, and 3 types of turbines that are assembled and driven by assembling bolts with 65 stages etc. The horizontal axis (1h) is perpendicular to the square turbine outer box Various energy storage cycle coalescing engines with generators and heat pumps that are equipped and driven. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差を可能な限り上昇+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を66段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Raise the head as much as possible with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it closer to 1200 degrees and heat another air Heat production that repeats recovery of compression heat + High-temperature heat insulation device Fully automatic processing is possible with three stages of turbines that drive the assembly of bolts with the same diameter and shape of each paragraph. The horizontal axis (1h) is a square turbine outer box. Various energy storage cycle coalescing engines with generators and heat pumps that are driven at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差を可能な限り上昇+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を67段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Raise the head as much as possible with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it closer to 1200 degrees and heat another air Heat production with repeated compression heat recovery + Fully automatic processing equipped with a heat retention device 3 types of turbines that drive and assemble assembly bolts with the same diameter and shape of each paragraph to 67 stages etc. The horizontal axis (1h) is a square turbine outer box Various energy storage cycle coalescing engines with generators and heat pumps that are driven at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を68段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. A generator and a heat pump are provided that are driven by three-stage turbines with 68-stage horizontal shafts (1h) at right angles to a square-shaped turbine outer box so that they can be fully automated and processed with the same diameter and shape of each paragraph. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を69段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each of the automatically-fabricated bolts and are equipped with 69 stages and the horizontal axis (1h) at right angles to the square turbine outer box are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を70段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each machining stage and are equipped with 70 types of turbines and a horizontal axis (1h) at right angles to a square turbine outer box are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を71段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device A generator and a heat pump are provided to drive three types of turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 71 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box at right angles. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を72段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. A generator and a heat pump are provided that are driven by three types of turbines that are assembled in assembling bolts with the same diameter and substantially the same shape for each stage and are equipped with 72 stages, etc., with a horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を73段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retention device Assembling bolt assembly drive with almost the same shape for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps to drive three types of turbines with 73 stages etc. and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を74段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with 74 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を75段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with 75 stages or the like and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を76段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it closer to 1200 ° C Heat production that repeats heat and compression heat recovery + Fully automatic processing equipped with high-temperature heat retention device Assembling bolt assembly drive with nearly the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three turbines with 76 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を77段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air, bringing it closer to 1200 degrees, heat production that repeats heating, compression and heat recovery + Fully automatic processing with a heat retention device is possible. Various energy storage cycle coalescing engines equipped with generators and heat pumps to drive three types of turbines with 77 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を78段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, 78 stages, etc. with horizontal axis (1h) at right angle to square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を79段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided with 79 stages and the horizontal axis (1h) at a right angle to the rectangular turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を80段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and heat pump for driving three-stage turbines with the same diameter and substantially the same shape for each stage to be automatically machined, with 80 stages, etc., and a horizontal axis (1h) at right angles to the square turbine outer box are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を81段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, 81 stages etc. with horizontal axis (1h) at right angle to square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を82段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. A generator and a heat pump are installed to drive three types of turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 82 stages, etc., with a horizontal axis (1h) at a right angle to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を83段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery. + Fully automatic processing equipped with a heat retention device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines with the same diameter and substantially the same shape, and three types of turbines that are assembled and driven by 83 bolts and a horizontal axis (1h) at a right angle to the outer casing of a square turbine. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を84段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached to 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and 84 stages, etc., with a horizontal axis (1h) provided at a right angle to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を85段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with substantially the same diameter and having 85 stages or the like and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を86段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing the geothermal heating air, approaching 1200 degrees and repeating the heat, compression and heat recovery. + Fully automatic processing equipped with a high temperature heat retaining device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that have three types of turbines that have the same diameter and substantially the same shape and are fitted with three stages of assembly bolts and drive with 86 stages and the horizontal axis (1h) at right angles to the square turbine outer box . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を87段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and save water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines of the same diameter and substantially the same shape, and three types of turbines that drive and drive fitting bolts with 87 stages and the horizontal axis (1h) at right angles to the square turbine outer box. . タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を88段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box with 88 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を89段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Three types of turbines that can be assembled automatically and fitted with assembly bolts with the same diameter and the same shape for each paragraph so that they can be fully automated Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having a horizontal axis (1h) with a right angle on the square turbine outer box in 89 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を90段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery from heat and compression + Three types of turbines that are equipped with a heat retaining device and can be assembled automatically and fitted with bolts assembling bolts with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at 90 degrees and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を91段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a high-temperature heat retaining device and that can be fully automated and can be assembled to fit bolts with the same diameter and shape of each paragraph Various energy conservation cycle coalescing engines equipped with generators and heat pumps that are driven by having a horizontal axis (1h) at right angles to a square turbine outer box with 91 stages and so on. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を92段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 92 horizontal stages and a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を93段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times ++ A pumping device (1J) is installed at the corner of a square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retention device Assembling bolt assembly drive with almost the same shape for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps to drive three types of turbines with 93 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を94段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times ++ A pumping device (1J) is installed at the corner of a square turbine outer box Preserving ascending + compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with 94 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を95段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times ++ A pumping device (1J) is installed at the corner of a square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three turbines with 95 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を96段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times ++ A pumping device (1J) is installed at the corner of a square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it closer to 1200 ° C Heat production that repeats heat and compression heat recovery + Fully automatic processing equipped with high-temperature heat retention device Assembling bolt assembly drive with nearly the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with 96 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法++揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を97段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times ++ A pumping device (1J) is installed at the corner of a square turbine outer box Ascending and storing + Compressing geothermal heating air, bringing it closer to 1200 degrees, heat production that repeats heating, compression and heat recovery + Fully automatic processing with a heat retention device is possible. Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three turbines with 97 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を98段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retention device Assembling bolt assembly drive with almost the same shape for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with 98 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を99段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three turbines with 99 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を100段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three turbines with 100 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を101段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it closer to 1200 ° C Heat production that repeats heat and compression heat recovery + Fully automatic processing equipped with high-temperature heat retention device Assembling bolt assembly drive with nearly the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with 101 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を102段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air, bringing it closer to 1200 degrees, heat production that repeats heating, compression and heat recovery + Fully automatic processing with a heat retention device is possible. Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three turbines with 102 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を103段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive three types of turbines that have the same diameter and almost the same shape for each paragraph and can be assembled fully automatically, with 103 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を104段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided with 104 stages and the horizontal axis (1h) at a right angle to the rectangular turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を105段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided with 105 stages, etc., and a horizontal axis (1h) provided at a right angle to a rectangular turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を106段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device A generator and a heat pump are installed to drive three types of turbines that have the same diameter and substantially the same shape for each stage so that they can be fully automatically machined. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を107段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. Provided with generator and heat pump to drive 3 types of turbines that have the same diameter and almost the same shape for each stage and can be fully automated, and have 107 horizontal stages (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を108段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery. + Fully automatic processing equipped with a heat retention device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that have three types of turbines with the same diameter and substantially the same shape, and three types of turbines that drive the assembly of assembling bolts with 108 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を109段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached to 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that have the same diameter as the fitting bolt assembly driven by 109 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を110段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that have the same diameter as the fitting bolt assembly driven to 110 stages and the horizontal axis (1h) with a rectangular turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を111段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing the geothermal heating air, approaching 1200 degrees and repeating the heat, compression and heat recovery. + Fully automatic processing equipped with a high temperature heat retaining device. Various types of energy storage cycle coalescence engines equipped with generators and heat pumps that have three types of turbines with the same diameter and substantially the same shape, and three types of turbines that are assembled and driven with 111 stages, etc., and a horizontal axis (1h) with a right angle square outer casing. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を112段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and save water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, and three types of turbines to be assembled and driven with 112 stages and the horizontal axis (1h) having a rectangular turbine outer box at right angles . タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を113段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy conservation cycle coalescing engines equipped with generators and heat pumps that are driven with 113 horizontal stages (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を114段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Three types of turbines that can be assembled automatically and fitted with assembly bolts with the same diameter and the same shape for each paragraph so that they can be fully automated Various energy storage cycle coalescence engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box at 114 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を115段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery from heat and compression + Three types of turbines that are equipped with a heat retaining device and can be assembled automatically and fitted with bolts assembling bolts with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box at 115 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を116段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a high-temperature heat retaining device and that can be fully automated and can be assembled to fit bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a 116-stage type and a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を117段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy conservation cycle coalescing engines equipped with generators and heat pumps that are driven with a 117-stage type and a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を118段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines that have the same diameter and almost the same shape for each stage, 118 stages, etc., and the horizontal axis (1h) is perpendicular to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を119段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three types of turbines to be assembled and assembled with the same diameter and substantially the same shape for each of the automatic machining stages and having a horizontal axis (1h) at right angles to the rectangular turbine outer box at 119 stages and the like are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を120段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage so that they can be automatically machined are provided with 120 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を1段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage so that they can be fully automatically machined. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を2段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage so that they can be fully automatically machined. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を3段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retention device Assembling bolt assembly drive with almost the same shape for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps to drive three types of turbines with three stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を4段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with four stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を5段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with 5 stages etc. and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を6段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it closer to 1200 ° C Heat production that repeats heat and compression heat recovery + Fully automatic processing equipped with high-temperature heat retention device Assembling bolt assembly drive with nearly the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of turbines with six stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を7段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air, bringing it closer to 1200 degrees, heat production that repeats heating, compression and heat recovery + Fully automatic processing with a heat retention device is possible. Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with seven stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を8段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Equipped with generators and heat pumps that are driven by three-stage turbines that have the same diameter and substantially the same shape for each stage and are equipped with 8 stages of horizontal bolts (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を9段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage in 9 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を10段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and are equipped with 10 stages, etc., with a horizontal axis (1h) at a right angle to the outer box of the square turbine are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を11段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device Provided with generator and heat pump to drive 3 types of turbines that have the same diameter and almost the same shape for each stage, 11 stages, etc. and the horizontal axis (1h) is perpendicular to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を12段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. Provided with generator and heat pump to drive 3 types of turbines to be assembled and fitted assembling bolts with the same diameter and almost the same shape for each stage in 12 stages, etc. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を13段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery. + Fully automatic processing equipped with a heat retention device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that have the same diameter and substantially the same shape and are fitted with 13 stages, etc., and a horizontal axis (1h) with a square turbine outer box at right angles . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を14段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached to 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in the same shape in diameter and assembled with 14 bolts and a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を15段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts of approximately the same diameter and having 15 stages or the like and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を16段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing the geothermal heating air, approaching 1200 degrees and repeating the heat, compression and heat recovery. + Fully automatic processing equipped with a high temperature heat retaining device. Various types of energy storage cycle coalescence engines equipped with generators and heat pumps that are driven with three types of turbines that have the same diameter and substantially the same shape, as well as three types of turbines that drive the assembly of 16 bolts and the horizontal axis (1h) at right angles to the square turbine outer box. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を17段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and save water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that have three types of turbines with the same diameter and substantially the same shape, and three types of turbines that drive the assembly of assembling bolts with 17 stages, etc. . タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を18段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 18 horizontal stages (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を19段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Three types of turbines that can be assembled automatically and fitted with assembly bolts with the same diameter and the same shape for each paragraph so that they can be fully automated Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を20段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery from heat and compression + Three types of turbines that are equipped with a heat retaining device and can be assembled automatically and fitted with bolts assembling bolts with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a 20-stage horizontal axis (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を21段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a high-temperature heat retaining device and that can be fully automated and can be assembled to fit bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 21 horizontal stages (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を22段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 22 horizontal stages (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を23段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, with 23 stages, etc. and a horizontal axis (1h) at right angles to the square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を24段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and are equipped with 24 bolts and a horizontal axis (1h) at right angles to the square turbine outer box are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を25段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided with 25 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を26段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 26 stages, etc., with a horizontal axis (1h) at a right angle to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を27段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. Provided with generator and heat pump to drive 3 types of turbines to be assembled and assembled with bolts assembled to the same diameter and shape of the same diameter for each stage in 27 steps, etc. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を28段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retention device Assembling bolt assembly drive with almost the same shape for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps to drive three types of turbines with 28 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を29段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with 29 stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を30段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three turbines with 30 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を31段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it closer to 1200 ° C Heat production that repeats heat and compression heat recovery + Fully automatic processing equipped with high-temperature heat retention device Assembling bolt assembly drive with nearly the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three turbines with 31 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を32段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air, bringing it closer to 1200 degrees, heat production that repeats heating, compression and heat recovery + Fully automatic processing with a heat retention device is possible. Various energy storage cycle coalescing engines equipped with generators and heat pumps to drive three types of turbines with 32 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を33段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, with 33 stages, etc. and a horizontal axis (1h) at right angles to a square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速して3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を34段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and store water. + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compressing heat + Water vertically downward Accelerate the blades of the three types of turbines to have the same diameter and shape for each paragraph. Fit the assembled bolt assembly turbine drive + heat retention with geothermal air heater for geothermal recovery. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines to be assembled and assembled with 34 stages, etc., with a horizontal axis (1h) provided at a right angle to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を35段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided in 35 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を36段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 36 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box at right angles. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を37段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for each stage, 37 stages, etc. with horizontal axis (1h) at right angle to square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を38多段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery. + Fully automatic processing equipped with a heat retention device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that have the same diameter and substantially the same shape, and 38 multi-stage turbines with a horizontal axis (1h) perpendicular to the square turbine outer box. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を39段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached to 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps with 39 horizontal stages (1h) provided at right angles to the square turbine outer box, and three types of turbines that are assembled with assembling bolts and are assembled with substantially the same diameter. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を40段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in assembling bolts with approximately the same diameter and 40 stages and a horizontal axis (1h) provided at a right angle to the outer casing of the square turbine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を41段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing the geothermal heating air, approaching 1200 degrees and repeating the heat, compression and heat recovery. + Fully automatic processing equipped with a high temperature heat retaining device. Various types of energy storage cycle coalescence engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, assembling bolts and driving with 41 stages and the horizontal axis (1h) at right angles to the square turbine outer box . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を42段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and save water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that have three types of turbines with the same diameter and substantially the same shape and are fitted with assembling bolts and driven with 42 stages and the horizontal axis (1h) at right angles to the square turbine outer box . タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を43段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 43 horizontal stages (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を44段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Three types of turbines that can be assembled automatically and fitted with assembly bolts with the same diameter and the same shape for each paragraph so that they can be fully automated Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) having a right angle on the square turbine outer box and 44 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を45段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery from heat and compression + Three types of turbines that are equipped with a heat retaining device and can be assembled automatically and fitted with bolts assembling bolts with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を46段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a high-temperature heat retaining device and that can be fully automated and can be assembled to fit bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 46 horizontal stages and a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を47段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a 47-stage type and a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を48段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and approximately the same shape for each stage, with 48 stages, etc., with a horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を49段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three-stage turbines, which have the same diameter and substantially the same shape for each stage so that they can be automatically machined, are provided with 49 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を50段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines with the same diameter and substantially the same shape for each of the automatically machined bolts and having three horizontal stages (1h) at right angles to the square turbine outer box are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を51段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device Provided with generator and heat pump to drive 3 types of turbines, which have the same diameter and same shape for each paragraph, and 51 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を52段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, with 52 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を53段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retention device Assembling bolt assembly drive with almost the same shape for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines having 53 stages or the like and a horizontal axis (1h) provided at a right angle to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を54段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three turbines with 54 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を55段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with 55 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を56段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it closer to 1200 ° C Heat production that repeats heat and compression heat recovery + Fully automatic processing equipped with high-temperature heat retention device Assembling bolt assembly drive with nearly the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with 56 horizontal stages and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を57段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air, bringing it closer to 1200 degrees, heat production that repeats heating, compression and heat recovery + Fully automatic processing with a heat retention device is possible. Various energy storage cycle coalescing engines equipped with a generator and heat pump to drive three types of turbines with 57 stages etc. and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を58段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for each fully automatic machining, with 58 stages and so on. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を59段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided with 59 stages and the horizontal axis (1h) at a right angle to the rectangular turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を60段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided with 60 stages, etc., with a horizontal axis (1h) perpendicular to a square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を61段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each fully automatic machining, with 61 stages, etc., and a horizontal axis (1h) perpendicular to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を62段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. A generator and a heat pump are installed to drive three-stage turbines with the same diameter and approximately the same shape for each fully-automated process, and to drive three bolts with 62 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を63段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery. + Fully automatic processing equipped with a heat retention device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, assembling bolts and driving with 63 stages and the horizontal axis (1h) at right angles to the square turbine outer box . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を64段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached to 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with substantially the same diameter and 64 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を65段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 65 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を66段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing the geothermal heating air, approaching 1200 degrees and repeating the heat, compression and heat recovery. + Fully automatic processing equipped with a high temperature heat retaining device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines of the same diameter and substantially the same shape, assembling bolts and driving with 66 stages and the horizontal axis (1h) having a square turbine outer box at right angles . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を67段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and save water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, assembling bolts and driving with 67 stages and the horizontal axis (1h) at right angles to the square turbine outer box . タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を68段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescence engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box with 68 stages and so on. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を69段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Three types of turbines that can be assembled automatically and fitted with assembly bolts with the same diameter and the same shape for each paragraph so that they can be fully automated Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を70段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery from heat and compression + Three types of turbines that are equipped with a heat retaining device and can be assembled automatically and fitted with bolts assembling bolts with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle of 70 degrees and a horizontal axis (1h). タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を71段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a high-temperature heat retaining device and that can be fully automated and can be assembled to fit bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 71 horizontal stages (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を72段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box and 72 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を73段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines to be assembled and fitted with assembly bolts with the same diameter and almost the same shape for full automatic machining, with 73 stages and so on, with a horizontal axis (1h) at right angles to the square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を74段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump are provided to drive three types of turbines that have the same diameter and substantially the same shape for each stage so that they can be automatically machined, and that have 74 stages, etc., and a horizontal axis (1h) that has a square turbine outer box at right angles. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を75段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump are provided to drive three types of turbines that have the same diameter and substantially the same shape for each stage so that they can be automatically machined, and are equipped with 75 stages, etc., with a horizontal axis (1h) at a right angle to the rectangular turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を76段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for full automatic machining, 76 stages etc. with horizontal axis (1h) right angled square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を77段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. Provided with generator and heat pump to drive 3 types of turbines to be assembled and fitted with assembly bolts with the same diameter and almost the same shape for every automatic machining, 77 stages, etc. with horizontal axis (1h) at right angles to square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を78段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retention device Assembling bolt assembly drive with almost the same shape for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three turbines with 78 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を79段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three turbines with 79 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を80段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with 80 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を81段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it closer to 1200 ° C Heat production that repeats heat and compression heat recovery + Fully automatic processing equipped with high-temperature heat retention device Assembling bolt assembly drive with nearly the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines having 81 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を82段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air, bringing it closer to 1200 degrees, heat production that repeats heating, compression and heat recovery + Fully automatic processing with a heat retention device is possible. Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of turbines with 82 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を83段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, 83 stages, etc. with horizontal axis (1h) right angled square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を84段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump are provided to drive three types of turbines that have the same diameter and substantially the same shape for each stage and can be automatically machined, with 84 stages, etc., and a horizontal axis (1h) perpendicular to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を85段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each auto-fabrication as well as three types of turbines that are assembled and driven with 85-stage horizontal axes (1h) at right angles to the square turbine outer box are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を86段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device A generator and a heat pump are installed to drive three types of turbines that have the same diameter and substantially the same shape for each stage and are equipped with 86 bolts and a horizontal axis (1h) with a rectangular turbine outer box at right angles. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を87段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for full automatic machining, with 87 stages etc. and a horizontal axis (1h) at right angles to a square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を88段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery. + Fully automatic processing equipped with a heat retention device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that have three types of turbines with the same diameter and substantially the same shape, and three types of turbines that are assembled and driven with 88 bolts and the horizontal axis (1h) at right angles to the square turbine outer box. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を89段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached to 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 89 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を90段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and 90 stages or the like and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を91段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing the geothermal heating air, approaching 1200 degrees and repeating the heat, compression and heat recovery. + Fully automatic processing equipped with a high temperature heat retaining device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that have three types of turbines with the same diameter and substantially the same shape, and three types of turbines that drive assembly bolts with 91 stages and the horizontal axis (1h) at right angles to the square turbine outer box . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を92段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and save water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, and three types of turbines that are driven by assembling fitting bolts in 92 stages and the horizontal axis (1h) at right angles to the square turbine outer box . タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を93段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 93 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を94段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Three types of turbines that can be assembled automatically and fitted with assembly bolts with the same diameter and the same shape for each paragraph so that they can be fully automated Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) having a right angle of square turbine outer box in 94 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を95段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery from heat and compression + Three types of turbines that are equipped with a heat retaining device and can be assembled automatically and fitted with bolts assembling bolts with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having a horizontal axis (1h) at a right angle and a square turbine outer box at 95 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を96段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a high-temperature heat retaining device and that can be fully automated and can be assembled to fit bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a 96-stage type and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を97段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy conservation cycle coalescing engines equipped with generators and heat pumps that are driven with 97 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を98段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and approximately the same shape for every automatic machining, 98 stages, etc. with horizontal axis (1h) at right angles to square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を99段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided with 99 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を100段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and heat pump for driving three-stage turbines that have the same diameter and approximately the same shape for each stage and that can be automatically machined are equipped with 100 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を101段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device Provided with generator and heat pump to drive three types of turbines that have the same diameter and substantially the same shape for each stage and can be assembled into fully automatic machining, with 101 stages, etc. and a horizontal axis (1h) at right angles to a square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を102段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. A generator and a heat pump are installed to drive three types of turbines that have the same diameter and substantially the same shape for each stage and can be assembled fully automatically. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を103段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retention device Assembling bolt assembly drive with almost the same shape for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with 103 stages or the like and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を104段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with 104 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を105段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines with 105 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を106段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it closer to 1200 ° C Heat production that repeats heat and compression heat recovery + Fully automatic processing equipped with high-temperature heat retention device Assembling bolt assembly drive with nearly the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps to drive three types of turbines with 106 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を107段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air, bringing it closer to 1200 degrees, heat production that repeats heating, compression and heat recovery + Fully automatic processing with a heat retention device is possible. Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with 107 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を108段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. A generator and a heat pump are installed to drive three types of turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 108 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box at right angles. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を109段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each of the automatically-processable bolts and are assembled with 109 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を110段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump are provided to drive three types of turbines that are assembled into assembly bolts that have the same diameter and substantially the same shape for each stage and that are driven by 110 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を111段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, with 111 stages, etc. and a horizontal axis (1h) at right angles to the square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を112段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for each stage, 112 stages, etc. with horizontal axis (1h) at right angles to square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を113段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery. + Fully automatic processing equipped with a heat retention device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that have the same diameter and substantially the same shape, and three types of turbines that are assembled and driven with 113 stages and the horizontal axis (1h) at right angles to the square turbine outer box. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を114段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached to 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps with three types of turbines to be assembled and driven with approximately the same diameter, 114 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を115段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 115 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を116段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing the geothermal heating air, approaching 1200 degrees and repeating the heat, compression and heat recovery. + Fully automatic processing equipped with a high temperature heat retaining device. Various types of energy storage cycle coalescence engines equipped with generators and heat pumps with three types of turbines that have the same diameter and substantially the same shape, and three types of turbines that are assembled and driven by 116 bolts and a horizontal axis (1h) that has a square turbine outer box at right angles. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を117段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and save water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, and three types of turbines that drive the assembly of the assembly bolts with 117 stages and the horizontal axis (1h) at right angles to the square turbine outer box. . タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を118段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy conservation cycle coalescing engines equipped with generators and heat pumps that are driven by having 118 types and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を119段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Three types of turbines that can be assembled automatically and fitted with assembly bolts with the same diameter and the same shape for each paragraph so that they can be fully automated Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle of square turbine outer box and 119 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を120段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery from heat and compression + Three types of turbines that are equipped with a heat retaining device and can be assembled automatically and fitted with bolts assembling bolts with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a 120-stage horizontal axis (1h) and a rectangular turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を1段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a high-temperature heat retaining device and that can be fully automated and can be assembled to fit bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box with one stage. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を2段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven in two stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を3段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage and are equipped with three horizontal stages (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を4段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage to be automatically machined, with four stages, etc., and a horizontal axis (1h) at a right angle to the rectangular turbine outer box are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を5段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided with five stages, etc., and the horizontal axis (1h) is perpendicular to the rectangular turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を6段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device A generator and heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage in a fully automatic form, with 6 stages, etc., and a horizontal axis (1h) perpendicular to the square turbine outer box are installed. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を7段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage and are equipped with 7 stages, etc., and the horizontal axis (1h) is perpendicular to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を8段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retention device Assembling bolt assembly drive with almost the same shape for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with 8 stages etc. and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を9段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with 9 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を10段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with 10 stages or the like and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を11段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it closer to 1200 ° C Heat production that repeats heat and compression heat recovery + Fully automatic processing equipped with high-temperature heat retention device Assembling bolt assembly drive with nearly the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with 11 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を12段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air, bringing it closer to 1200 degrees, heat production that repeats heating, compression and heat recovery + Fully automatic processing with a heat retention device is possible. Various energy storage cycle coalescing engines equipped with generators and heat pumps to drive three types of turbines with 12 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を13段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. A generator and a heat pump are installed to drive three-stage turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 13 stages, etc., with a horizontal axis (1h) at a right angle to the outer casing of the square turbine. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を14段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump are provided to drive three types of turbines that have the same diameter and substantially the same shape for each stage so that they can be automatically machined, and are equipped with 14 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を15段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and are equipped with 15 bolts and a horizontal axis (1h) at right angles to the square turbine outer box are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を16段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, with 16 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を17段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for each stage, 17 stages, etc. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を18段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery. + Fully automatic processing equipped with a heat retention device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that have three types of turbines with the same diameter and substantially the same shape, and three types of turbines that drive assembly bolts with 18 stages, etc. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を19段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached to 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps with 19 horizontal stages (1h) provided at right angles to the square turbine outer box, and three types of turbines that are assembled to drive assembling bolts with substantially the same diameter. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を20段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that have the same diameter as the fitting bolts and are driven in 20 stages and the horizontal axis (1h) is perpendicular to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を21段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing the geothermal heating air, approaching 1200 degrees and repeating the heat, compression and heat recovery. + Fully automatic processing equipped with a high temperature heat retaining device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, as well as three stages of turbines that are assembled and driven with 21 stages, etc. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を22段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and save water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, as well as three types of turbines to be assembled and driven with 22 stages and the horizontal axis (1h) having a square turbine outer box at right angles . タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を23段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy conservation cycle coalescing engines equipped with generators and heat pumps that are driven with a 23-stage type and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を24段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Three types of turbines that can be assembled automatically and fitted with assembly bolts with the same diameter and the same shape for each paragraph so that they can be fully automated Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) having a right angle in a square turbine outer box and 24 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を25段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery from heat and compression + Three types of turbines that are equipped with a heat retaining device and can be assembled automatically and fitted with bolts assembling bolts with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) having a right angle of square turbine outer box and 25 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を26段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a high-temperature heat retaining device and that can be fully automated and can be assembled to fit bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a 26-stage type and a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を27段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a 27-stage type and a horizontal axis (1h) perpendicular to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を28段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator that is equipped with a heat retaining device and that can be fully automatic machined and is equipped with three types of turbines to be assembled and driven with assembling bolts having the same diameter and shape of each paragraph, with 28 stages and the horizontal axis (1h) at right angles to a square turbine outer box. Various energy storage cycle coalescing engines equipped with heat pumps. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を29段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator that is equipped with a heat retaining device and is capable of full automatic processing, with three stages of turbines that have the same diameter and substantially the same shape for each assembly bolt assembly drive, 29 stages, etc., and a horizontal axis (1h) that has a square turbine outer box at right angles. Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を30段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator that is equipped with a heat retaining device and is capable of full automatic processing and is equipped with three types of turbines that are assembled and fitted with assembling bolts with the same diameter and substantially the same shape for each stage and a horizontal axis (1h) with a square turbine outer box at right angles. Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を31段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator that is equipped with a high-temperature heat insulation device and is capable of full automatic processing and is equipped with three types of turbines to be assembled and driven with the same diameter and shape of each paragraph, and 31 stages and the horizontal axis (1h) is provided at right angles to the square turbine outer box. Various energy storage cycle coalescing engines equipped with heat pumps. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を32段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator that is equipped with a heat retaining device and that can be fully automatic machined and has three stages of turbines to be assembled and fitted with the same diameter and the same shape for each paragraph and 32 stages and the horizontal axis (1h) is provided at a right angle to the square turbine outer box. Various energy storage cycle coalescing engines equipped with heat pumps. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を33段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator that is equipped with a heat retaining device and is capable of full automatic processing and is equipped with three types of turbines that are assembled and driven by fitting bolts with the same diameter and the same shape for each paragraph and 33 stages and the horizontal axis (1h) at right angles to a square turbine outer box. Various energy storage cycle coalescing engines equipped with heat pumps. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を34段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator that is equipped with a heat retaining device and is capable of fully automatic processing, with three stages of turbines that have the same diameter and substantially the same shape for each assembly bolt assembling and driving with 34 stages and the horizontal axis (1h) provided with a square turbine outer box at right angles. Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を35段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator that is equipped with a heat retaining device and is capable of full automatic processing and is equipped with three types of turbines to be assembled and fitted with assembling bolts with the same diameter and substantially the same shape as each stage, and a horizontal axis (1h) with a square turbine outer box at right angles. Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を36段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator that is equipped with a high-temperature heat insulation device and is capable of full automatic processing and is equipped with three types of turbines that are assembled and driven by fitting bolts with the same diameter and shape of each paragraph, with 36 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy storage cycle coalescing engines equipped with heat pumps. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を37段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator that is equipped with a heat retaining device and is capable of full automatic machining and is equipped with three types of turbines that are assembled and driven by fitting bolts with the same diameter and shape of each paragraph and 37 stages and the horizontal axis (1h) at right angles to a square turbine outer box. Various energy storage cycle coalescing engines equipped with heat pumps. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を38段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with substantially the same diameter and having 38 stages or the like and a horizontal axis (1h) with a rectangular turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を39段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery with additional air + Fully automatic processing equipped with a heat retaining device The same diameter per paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines to be assembled and fitted with substantially the same shape and 39 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を40段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery for another air + Fully automatic processing equipped with a heat retention device Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in almost the same shape and assembled with 40 stages, etc., having a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を41段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air and brought it close to 1200 ° C, heat production by repeating heating and compression heat recovery + Fully automatic processing with a high temperature heat retention device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with substantially the same diameter and having 41 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を42段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + accelerating the storage battery drive + various pumping vessels (1J) square type Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 ° C, repeated heating and heat recovery for another air + Fully automatic processing with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 42 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を43段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 43 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を44段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 44 stages or the like and a horizontal axis (1h) provided at a right angle to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を45段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in assembling bolts with approximately the same diameter, 45 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を46段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with substantially the same diameter and having 46 stages or the like and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を47段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that have the same diameter as the fitting bolt assembly driven in 47 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を48段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery with additional air + Fully automatic processing equipped with a heat retaining device The same diameter per paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in substantially the same shape and assembled with 48 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を49段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery with additional air + Fully automatic processing equipped with a heat retaining device The same diameter per paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in substantially the same shape and assembled with 49 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を50段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery with additional air + Fully automatic processing equipped with a heat retaining device The same diameter per paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three horizontal turbines (1h) provided at right angles to a square turbine outer box, with three types of turbines that are assembled and driven as substantially the same shape. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を51段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery with additional air + Fully automatic processing equipped with a heat retaining device The same diameter per paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled and driven assembling bolts in approximately the same shape and having a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を52段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery with additional air + Fully automatic processing equipped with a heat retaining device The same diameter per paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in substantially the same shape and assembled with 52 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を53段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery for another air + Fully automatic processing equipped with a heat retention device Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in approximately the same shape and fitted with assembling bolts in 53 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を54段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery for another air + Fully automatic processing equipped with a heat retention device Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled and driven assembling bolts in approximately the same shape and having a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を55段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery for another air + Fully automatic processing equipped with a heat retention device Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in substantially the same shape and assembled with 55 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を56段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery for another air + Fully automatic processing equipped with a heat retention device Various energy storage cycle coalescing engines provided with generators and heat pumps that are driven by having three types of turbines that are assembled in substantially the same shape and assembled with 56 stages, etc., and having a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を57段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery for another air + Fully automatic processing equipped with a heat retention device Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines to be assembled and driven in approximately the same shape and having 57 stages or the like and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を58段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air and brought it close to 1200 ° C, heat production by repeating heating and compression heat recovery + Fully automatic processing with a high temperature heat retention device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 58 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を59段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air and brought it close to 1200 ° C, heat production by repeating heating and compression heat recovery + Fully automatic processing with a high temperature heat retention device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and 59 stages, etc., with a horizontal axis (1h) provided at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を60段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air and brought it close to 1200 ° C, heat production by repeating heating and compression heat recovery + Fully automatic processing with a high temperature heat retention device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in assembling bolts with approximately the same diameter and 60 stages and the horizontal axis (1h) at a right angle to the outer casing of the square turbine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を61段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air and brought it close to 1200 ° C, heat production by repeating heating and compression heat recovery + Fully automatic processing with a high temperature heat retention device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with substantially the same diameter and 61 stages and the horizontal axis (1h) is provided at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を62段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air and brought it close to 1200 ° C, heat production by repeating heating and compression heat recovery + Fully automatic processing with a high temperature heat retention device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and 62 horizontal stages (1h) with a horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を63段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 ° C, repeated heating and heat recovery for another air + Fully automatic processing with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in assembling bolts with approximately the same diameter and 63 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を64段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 ° C, repeated heating and heat recovery for another air + Fully automatic processing with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with substantially the same diameter and 64 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を65段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 ° C, repeated heating and heat recovery for another air + Fully automatic processing with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 65 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を66段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 ° C, repeated heating and heat recovery for another air + Fully automatic processing with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 66 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を67段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 ° C, repeated heating and heat recovery for another air + Fully automatic processing with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 67 stages or the like and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を設けた全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を68段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal heating air, approached to 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing with heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 68 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を設けた全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を69段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal heating air, approached to 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing with heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 69 stages or the like and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を設けた全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を70段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal heating air, approached to 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing with heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and 70 stages or the like and a horizontal axis (1h) having a rectangular turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を設けた全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を71段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal heating air, approached to 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing with heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in the same shape in diameter and fitted with 71 bolts and a horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を設けた全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を72段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal heating air, approached to 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing with heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 72 stages or the like and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を73段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repetitive heat production + Fully automatic processing equipped with a heat retaining device Three stages of turbines to be assembled and fitted with fitting bolts with the same diameter and shape of each paragraph are arranged in 73 stages and the horizontal axis (1h) is provided at right angles to the square turbine outer box. Various energy storage cycle coalescing engines with a generator and heat pump to drive. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を74段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repetitive heat production + Fully automatic machining with heat insulation equipment The three types of turbines that drive the assembly bolt assembly with the same diameter and the same shape for each stage are equipped with 74 stages, etc. The horizontal axis (1h) is driven with a square turbine outer box at right angles. Various energy storage cycle coalescing engines equipped with generators and heat pumps. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を75段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + Insulation machine equipped with a heat retention device Fully automatic processing is possible with three stages of turbines that are assembled and fitted with fitting bolts with the same diameter and shape of each paragraph. The horizontal axis (1h) is driven with a square turbine outer box at right angles. Various energy storage cycle coalescing engines equipped with generators and heat pumps. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を76段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + high-temperature heat insulation device equipped with full-automatic processing, with three stages of turbines to be assembled and fitted with fitting bolts with the same diameter and shape of each paragraph, with 76 stages and the horizontal axis (1h) at right angles to the square turbine outer box Various energy storage cycle coalescing engines with a generator and heat pump to drive. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を77段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + Insulated with heat retaining equipment Fully automatic processing with three stages of turbines to be assembled and fitted with fitting bolts with almost the same diameter for each paragraph, 77 stages, etc. with horizontal axis (1h) at right angle to square turbine outer box Various energy storage cycle coalescing engines with a generator and heat pump to drive. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を78段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, 78 stages, etc. with horizontal axis (1h) at right angle to square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を79段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided with 79 stages and the horizontal axis (1h) at a right angle to the rectangular turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を80段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and heat pump for driving three-stage turbines with the same diameter and substantially the same shape for each stage to be automatically machined, with 80 stages, etc., and a horizontal axis (1h) at right angles to the square turbine outer box are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を81段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, 81 stages etc. with horizontal axis (1h) at right angle to square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を82段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. A generator and a heat pump are installed to drive three types of turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 82 stages, etc., with a horizontal axis (1h) at a right angle to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を83段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retention device Assembling bolt assembly drive with almost the same shape for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of turbines with 83 stages etc. and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を84段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with 84 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を85段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with 85 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を86段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it closer to 1200 ° C Heat production that repeats heat and compression heat recovery + Fully automatic processing equipped with high-temperature heat retention device Assembling bolt assembly drive with nearly the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with 86 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を87段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air, bringing it closer to 1200 degrees, heat production that repeats heating, compression and heat recovery + Fully automatic processing with a heat retention device is possible. Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three turbines with 87 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を88段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, 88 stages etc. with horizontal axis (1h) at right angle to square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を89段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided with 89 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を90段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each of the automatically machined bolts and that have 90 stages or the like and a horizontal axis (1h) perpendicular to the rectangular turbine outer box are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を91段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and the same shape for each fully automatic machining, with 91 stages, etc., and a horizontal axis (1h) at right angles to the square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を92段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. A generator and a heat pump are provided that are driven by three-stage turbines that have the same diameter and substantially the same shape for each stage and are equipped with 92 stages, etc., with a horizontal axis (1h) at a right angle to the rectangular outer casing. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を93段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery. + Fully automatic processing equipped with a heat retention device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, assembling bolts and driving with 93 stages and the horizontal axis (1h) at right angles to the square turbine outer box . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を94段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached to 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in the same shape of diameter and assembled with 94 bolts and a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を95段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 95 stages or the like and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を96段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing a multi-stage hydrogravity geothermal turbine with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing the geothermal heating air, approaching 1200 degrees and repeating the heat, compression and heat recovery. + Fully automatic processing equipped with a high temperature heat retaining device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, assembling bolts and driving with 96 stages and the horizontal axis (1h) at right angles to the square turbine outer box . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を97段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and save water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, and 97 types of turbines that are assembled and driven with 97 stages and the horizontal axis (1h) at right angles to a square turbine outer box . タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を98段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy conservation cycle coalescing engines equipped with generators and heat pumps that are driven with 98 horizontal stages and a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を99段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Three types of turbines that can be assembled automatically and fitted with assembly bolts with the same diameter and the same shape for each paragraph so that they can be fully automated Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a 99-stage horizontal axis (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を100段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery from heat and compression + Three types of turbines that are equipped with a heat retaining device and can be assembled automatically and fitted with bolts assembling bolts with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) having a right angle of square turbine outer box in 100 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を101段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a high-temperature heat retaining device and that can be fully automated and can be assembled to fit bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 101 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を102段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 102 horizontal stages (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を103段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive three types of turbines that have the same diameter and almost the same shape for each paragraph and can be assembled fully automatically, with 103 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を104段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided with 104 stages and the horizontal axis (1h) at a right angle to the rectangular turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を105段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided with 105 stages, etc., and a horizontal axis (1h) provided at a right angle to a rectangular turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を106段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device A generator and a heat pump are installed to drive three types of turbines that have the same diameter and substantially the same shape for each stage so that they can be fully automatically machined. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を107段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. Provided with generator and heat pump to drive 3 types of turbines that have the same diameter and almost the same shape for each stage and can be fully automated, and have 107 horizontal stages (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を108段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retention device Assembling bolt assembly drive with almost the same shape for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines having 108 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を109段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three turbines with 109 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を110段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with 110 stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を111段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it closer to 1200 ° C Heat production that repeats heat and compression heat recovery + Fully automatic processing equipped with high-temperature heat retention device Assembling bolt assembly drive with nearly the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three turbines with 111 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を112段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air, bringing it closer to 1200 degrees, heat production that repeats heating, compression and heat recovery + Fully automatic processing with a heat retention device is possible. Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with 112 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を113段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines that have the same diameter and almost the same shape for each stage, and have 113 stages, etc., with a horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を114段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided with 114 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を115段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump are provided to drive three types of turbines that have the same diameter and substantially the same shape for each stage so that they can be automatically machined, and are equipped with 115 stages and the horizontal axis (1h) at a right angle to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を116段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device A generator and a heat pump are provided to drive the three types of turbines that have the same diameter and substantially the same shape for each stage and are equipped with 116 bolts and a horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を117段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. A generator and a heat pump are installed to drive three-stage turbines with the same diameter and approximately the same shape for each fully-automated machining, with 117 stages, etc., equipped with a horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を118段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery. + Fully automatic processing equipped with a heat retention device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, and three types of turbines that are assembled and driven by 118 bolts and a horizontal axis (1h) with a square turbine outer box at right angles. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を119段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached to 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in assembling bolts with substantially the same diameter and 119 stages, etc., with a horizontal axis (1h) provided at a right angle to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を120段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with substantially the same diameter and 120 stages or the like and a horizontal axis (1h) with a rectangular turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を1段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing the geothermal heating air, approaching 1200 degrees and repeating the heat, compression and heat recovery. + Fully automatic processing equipped with a high temperature heat retaining device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that have three shafts of the same diameter and substantially the same shape, and are driven by three-stage turbines with a horizontal axis (1h) at right angles to a square turbine outer box. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を2段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and save water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, as well as two types of turbines to drive assembly with two stages and the horizontal axis (1h) having a square turbine outer box at right angles . タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を3段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven in three stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を4段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Three types of turbines that can be assembled automatically and fitted with assembly bolts with the same diameter and the same shape for each paragraph so that they can be fully automated Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in four stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を5段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery from heat and compression + Three types of turbines that are equipped with a heat retaining device and can be assembled automatically and fitted with bolts assembling bolts with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) having a right angle in a square turbine outer box in five stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を6段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a high-temperature heat retaining device and that can be fully automated and can be assembled to fit bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a 6-stage type horizontal axis (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を7段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy conservation cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) having a right angle on a square turbine outer box in seven stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を8段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Equipped with generators and heat pumps that are driven by three-stage turbines that have the same diameter and substantially the same shape for each stage and are equipped with 8 stages of horizontal bolts (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を9段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage in 9 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を10段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and are equipped with 10 stages, etc., with a horizontal axis (1h) at a right angle to the outer box of the square turbine are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を11段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device Provided with generator and heat pump to drive 3 types of turbines that have the same diameter and almost the same shape for each stage, 11 stages, etc. and the horizontal axis (1h) is perpendicular to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を12段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. Provided with generator and heat pump to drive 3 types of turbines to be assembled and fitted assembling bolts with the same diameter and almost the same shape for each stage in 12 stages, etc. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を13段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retention device Assembling bolt assembly drive with almost the same shape for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of turbines with 13 stages etc. and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を14段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines having 14 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を15段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three turbines with 15 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を16段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it closer to 1200 ° C Heat production that repeats heat and compression heat recovery + Fully automatic processing equipped with high-temperature heat retention device Assembling bolt assembly drive with nearly the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with 16 stages or the like and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を17段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air, bringing it closer to 1200 degrees, heat production that repeats heating, compression and heat recovery + Fully automatic processing with a heat retention device is possible. Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with 17 stages etc. and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を18段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, 18 stages, etc. with horizontal axis (1h) at right angle to square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を19段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined and equipped with 19 stages, etc., with a horizontal axis (1h) at a right angle to the rectangular turbine outer box are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を20段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump are provided to drive three types of turbines that have the same diameter and substantially the same shape for each stage so that they can be automatically machined, and that have 20 stages, etc., and a horizontal axis (1h) with a rectangular turbine outer box at right angles. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を21段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device Provided with generator and heat pump to drive 3 types of turbines to be assembled and fitted with bolts assembled to the same diameter and almost the same shape for each stage in 21 stages, etc. with horizontal axis (1h) at right angles to square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を22段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. A generator and a heat pump are provided to drive three types of turbines that are assembled in assembling bolts with the same diameter and substantially the same shape for each stage so that they can be fully automatically machined. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を23段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery. + Fully automatic processing equipped with a heat retention device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that have three types of turbines with the same diameter and substantially the same shape, and three types of turbines that drive assembly bolts with 23 stages, etc. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を24段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached to 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 24 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を25段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in the same shape as the diameter of the fitting bolt and driving the horizontal shaft (1h) at a right angle to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を26段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing the geothermal heating air, approaching 1200 degrees and repeating the heat, compression and heat recovery. + Fully automatic processing equipped with a high temperature heat retaining device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, assembling bolts and driving with 26 stages and the horizontal axis (1h) at right angles to the square turbine outer box . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を27段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and save water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines with the same diameter and substantially the same shape, and three types of turbines that are assembled and driven with 27 stages and the horizontal axis (1h) at right angles to the square turbine outer box. . タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を28段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 28 horizontal stages and a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を29段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Three types of turbines that can be assembled automatically and fitted with assembly bolts with the same diameter and the same shape for each paragraph so that they can be fully automated Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) having a right angle of square turbine outer box in 29 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を30段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery from heat and compression + Three types of turbines that are equipped with a heat retaining device and can be assembled automatically and fitted with bolts assembling bolts with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) having a right angle of 30 degrees and a horizontal axis (1h). タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を31段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a high-temperature heat retaining device and that can be fully automated and can be assembled to fit bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 31 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を32段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box with 32 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を33段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, with 33 stages, etc. and a horizontal axis (1h) at right angles to a square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を34段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided with 34 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を35段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided in 35 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を36段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 36 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box at right angles. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を37段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for each stage, 37 stages, etc. with horizontal axis (1h) at right angle to square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を38段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retention device Assembling bolt assembly drive with almost the same shape for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that are driven with three types of turbines having 38 stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を39段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines with 39 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を40段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines having 40 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を41段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it closer to 1200 ° C Heat production that repeats heat and compression heat recovery + Fully automatic processing equipped with high-temperature heat retention device Assembling bolt assembly drive with nearly the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines having 41 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を42段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air, bringing it closer to 1200 degrees, heat production that repeats heating, compression and heat recovery + Fully automatic processing with a heat retention device is possible. Various energy storage cycle coalescence engines equipped with generators and heat pumps to drive three types of turbines with 42 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を43段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, with 43 stages and so on, with a horizontal axis (1h) at right angles to the square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を44段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump are provided to drive the three types of turbines that are assembled with assembling bolts with the same diameter and the same shape for each stage so that they can be automatically machined, with 44 stages and the horizontal axis (1h) provided at a right angle to the rectangular turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を45段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each machining stage and that have three horizontal stages (1h) at right angles to the square turbine outer box are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を46段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device Provided with generator and heat pump to drive 3 types of turbines that have the same diameter and same shape for each paragraph and can be assembled fully automatically. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を47段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. Provided with generator and heat pump to drive 3 types of turbines that have the same diameter and almost the same shape for each stage and are equipped with 47 bolts, etc. with a horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を48段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery. + Fully automatic processing equipped with a heat retention device. Various energy storage cycle coalescing engines with generators and heat pumps that are driven with three types of turbines that have the same diameter and substantially the same shape and are fitted with assembly bolts for 48 stages and a horizontal axis (1h) with a rectangular turbine outer box at right angles . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を49段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached to 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with substantially the same diameter and having 49 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を50段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in assembling bolts with approximately the same diameter and 50 stages and a horizontal axis (1h) provided at a right angle to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を51段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing the geothermal heating air, approaching 1200 degrees and repeating the heat, compression and heat recovery. + Fully automatic processing equipped with a high temperature heat retaining device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, and 51 turbines, etc. with a horizontal axis (1h) at right angles to the square turbine outer box. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を52段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and save water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device for each paragraph Various types of energy storage cycle coalescence engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, and three types of turbines that are assembled and driven with 52 stages and the horizontal axis (1h) at right angles to the square turbine outer box. . タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を53段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box with 53 stages, etc. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を54段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Three types of turbines that can be assembled automatically and fitted with assembly bolts with the same diameter and the same shape for each paragraph so that they can be fully automated Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box in 54 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を55段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery from heat and compression + Three types of turbines that are equipped with a heat retaining device and can be assembled automatically and fitted with bolts assembling bolts with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) having a right angle on the square turbine outer box in 55 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を56段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a high-temperature heat retaining device and that can be fully automated and can be assembled to fit bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle of square turbine outer box and 56 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を57段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy conservation cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box and 57 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を58段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for each fully automatic machining, with 58 stages and so on. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を59段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided with 59 stages and the horizontal axis (1h) at a right angle to the rectangular turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を60段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided with 60 stages, etc., with a horizontal axis (1h) perpendicular to a square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を61段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each fully automatic machining, with 61 stages, etc., and a horizontal axis (1h) perpendicular to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を62段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. A generator and a heat pump are installed to drive three-stage turbines with the same diameter and approximately the same shape for each fully-automated process, and to drive three bolts with 62 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を63段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retention device Assembling bolt assembly drive with almost the same shape for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps to drive three types of turbines with 63 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を64段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines having 64 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を65段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with 65 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を66段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it closer to 1200 ° C Heat production that repeats heat and compression heat recovery + Fully automatic processing equipped with high-temperature heat retention device Assembling bolt assembly drive with nearly the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines having 66 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を67段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air, bringing it closer to 1200 degrees, heat production that repeats heating, compression and heat recovery + Fully automatic processing with a heat retention device is possible. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines having 67 stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を68段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. A generator and a heat pump are provided that are driven by three-stage turbines with 68-stage horizontal shafts (1h) at right angles to a square-shaped turbine outer box so that they can be fully automated and processed with the same diameter and shape of each paragraph. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を69段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each of the automatically-fabricated bolts and are equipped with 69 stages and the horizontal axis (1h) at right angles to the square turbine outer box are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を70段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each machining stage and are equipped with 70 types of turbines and a horizontal axis (1h) at right angles to a square turbine outer box are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を71段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device A generator and a heat pump are provided to drive three types of turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 71 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box at right angles. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を72段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. A generator and a heat pump are provided that are driven by three types of turbines that are assembled in assembling bolts with the same diameter and substantially the same shape for each stage and are equipped with 72 stages, etc., with a horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を73段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery. + Fully automatic processing equipped with a heat retention device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, and three types of turbines to be assembled and driven with 73 stages and the horizontal axis (1h) at right angles to a square turbine outer box . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を74段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached to 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled to fit bolts with approximately the same diameter and 74 stages and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を75段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 75 stages or the like and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を76段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing the geothermal heating air, approaching 1200 degrees and repeating the heat, compression and heat recovery. + Fully automatic processing equipped with a high temperature heat retaining device. Various types of energy storage cycle coalescence engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, and three types of turbines that are assembled and driven with 76 stages and the horizontal axis (1h) at right angles to the square turbine outer box. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を77段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and save water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, and three types of turbines that are assembled and driven with 77 stages and the horizontal axis (1h) at right angles to the square turbine outer box. . タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を78段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy conservation cycle coalescing engines equipped with generators and heat pumps that are driven with 78 horizontal stages (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を79段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Three types of turbines that can be assembled automatically and fitted with assembly bolts with the same diameter and the same shape for each paragraph so that they can be fully automated Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 79 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を80段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery from heat and compression + Three types of turbines that are equipped with a heat retaining device and can be assembled automatically and fitted with bolts assembling bolts with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box at 80 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を81段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a high-temperature heat retaining device and that can be fully automated and can be assembled to fit bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 81 horizontal stages (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を82段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 82 horizontal stages (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を83段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, 83 stages, etc. with horizontal axis (1h) right angled square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を84段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump are provided to drive three types of turbines that have the same diameter and substantially the same shape for each stage and can be automatically machined, with 84 stages, etc., and a horizontal axis (1h) perpendicular to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を85段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each auto-fabrication as well as three types of turbines that are assembled and driven with 85-stage horizontal axes (1h) at right angles to the square turbine outer box are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を86段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device A generator and a heat pump are installed to drive three types of turbines that have the same diameter and substantially the same shape for each stage and are equipped with 86 bolts and a horizontal axis (1h) with a rectangular turbine outer box at right angles. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を87段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for full automatic machining, with 87 stages etc. and a horizontal axis (1h) at right angles to a square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を88段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retention device Assembling bolt assembly drive with almost the same shape for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines having 88 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を89段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with 89 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を90段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three turbines with 90 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を91段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it closer to 1200 ° C Heat production that repeats heat and compression heat recovery + Fully automatic processing equipped with high-temperature heat retention device Assembling bolt assembly drive with nearly the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three turbines with 91 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を92段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air, bringing it closer to 1200 degrees, heat production that repeats heating, compression and heat recovery + Fully automatic processing with a heat retention device is possible. Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of turbines with 92 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を93段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. A generator and a heat pump are installed that are equipped with three types of turbines that can be assembled and assembled with the same diameter and approximately the same shape for each stage, with 93 stages, etc. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を94段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump are provided to drive three types of turbines that have the same diameter and substantially the same shape for each stage so that they can be automatically machined. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を95段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and are equipped with 95 bolts and a horizontal axis (1h) at right angles to the square turbine outer box are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を96段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device A generator and a heat pump are provided to drive the three-stage turbine with 96 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box so that it can be fully automatically machined with the same diameter and shape as each paragraph. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を97段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. A generator and a heat pump are installed to drive three-stage turbines with the same diameter and shape of the same shape, and 97 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を98段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery. + Fully automatic processing equipped with a heat retention device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines with the same diameter and substantially the same shape, and three types of turbines that are assembled and driven with 98 stages and the horizontal axis (1h) at a right angle of the square turbine outer box . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を99段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached to 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with almost the same diameter and 99 stages or the like and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を100段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and 100 stages and the horizontal axis (1h) is provided at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を101段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing the geothermal heating air, approaching 1200 degrees and repeating the heat, compression and heat recovery. + Fully automatic processing equipped with a high temperature heat retaining device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that have three types of turbines with the same diameter and substantially the same shape, and three types of turbines that are assembled and driven with 101 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を102段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and save water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, and three types of turbines that drive and drive fitting bolts with 102 stages and the horizontal axis (1h) at right angles to the rectangular outer casing. . タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を103段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 103 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を104段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Three types of turbines that can be assembled automatically and fitted with assembly bolts with the same diameter and the same shape for each paragraph so that they can be fully automated Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with 104 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を105段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery from heat and compression + Three types of turbines that are equipped with a heat retaining device and can be assembled automatically and fitted with bolts assembling bolts with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) having a right angle of 105 square and a horizontal axis (1h). タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を106段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a high-temperature heat retaining device and that can be fully automated and can be assembled to fit bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps with 106 stages, etc., and a horizontal axis (1h) provided with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を107段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 107 horizontal stages (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を108段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. A generator and a heat pump are installed to drive three types of turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 108 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box at right angles. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を109段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each of the automatically-processable bolts and are assembled with 109 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を110段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump are provided to drive three types of turbines that are assembled into assembly bolts that have the same diameter and substantially the same shape for each stage and that are driven by 110 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を111段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, with 111 stages, etc. and a horizontal axis (1h) at right angles to the square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を112段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for each stage, 112 stages, etc. with horizontal axis (1h) at right angles to square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を113段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retention device Assembling bolt assembly drive with almost the same shape for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps to drive three types of turbines with 113 stages or the like and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を114段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy conservation cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines having 114 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を115段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three turbines with 115 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を116段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it closer to 1200 ° C Heat production that repeats heat and compression heat recovery + Fully automatic processing equipped with high-temperature heat retention device Assembling bolt assembly drive with nearly the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of turbines with 116 stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を117段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air, bringing it closer to 1200 degrees, heat production that repeats heating, compression and heat recovery + Fully automatic processing with a heat retention device is possible. Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with 117 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を118段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines that have the same diameter and almost the same shape for each stage, 118 stages, etc., and the horizontal axis (1h) is perpendicular to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を119段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three types of turbines to be assembled and assembled with the same diameter and substantially the same shape for each of the automatic machining stages and having a horizontal axis (1h) at right angles to the rectangular turbine outer box at 119 stages and the like are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を120段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage so that they can be automatically machined are provided with 120 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を1段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage so that they can be fully automatically machined. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を2段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage so that they can be fully automatically machined. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を3段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery. + Fully automatic processing equipped with a heat retention device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that have the same diameter and substantially the same shape and are fitted with three types of turbines that are driven in three stages, etc. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を4段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached to 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in the same shape in diameter and assembled with four types of turbines in four stages and the horizontal axis (1h) at a right angle to the outer casing of the square turbine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を5段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that are driven with three horizontal turbines (1h) provided at right angles to a square turbine outer box at five stages, etc., with three types of turbines that are assembled in the same shape as the fitting bolts. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を6段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing the geothermal heating air, approaching 1200 degrees and repeating the heat and compression heat recovery. + Fully automatic processing equipped with a high temperature heat retaining device Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, assembling bolts and driving with 6 stages and the horizontal axis (1h) at right angles to the square turbine outer box . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を7段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and save water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, assembling bolts and driving with 7 stages, etc., and a horizontal axis (1h) having a square turbine outer box at right angles . タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を8段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 8 types of horizontal shafts (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を9段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Three types of turbines that can be assembled automatically and fitted with assembly bolts with the same diameter and the same shape for each paragraph so that they can be fully automated Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having a horizontal axis (1h) at right angles to a square turbine outer box in 9 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を10段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery from heat and compression + Three types of turbines that are equipped with a heat retaining device and can be assembled automatically and fitted with bolts assembling bolts with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box at 10 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を11段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a high-temperature heat retaining device and that can be fully automated and can be assembled to fit bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 11 horizontal stages (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を12段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box with 12 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を13段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. A generator and a heat pump are installed to drive three-stage turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 13 stages, etc., with a horizontal axis (1h) at a right angle to the outer casing of the square turbine. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を14段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump are provided to drive three types of turbines that have the same diameter and substantially the same shape for each stage so that they can be automatically machined, and are equipped with 14 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を15段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and are equipped with 15 bolts and a horizontal axis (1h) at right angles to the square turbine outer box are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を16段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, with 16 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を17段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for each stage, 17 stages, etc. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を18段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retention device Assembling bolt assembly drive with almost the same shape for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with 18 stages etc. and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を19段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines with 19 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を20段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with 20 stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を21段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it closer to 1200 ° C Heat production that repeats heat and compression heat recovery + Fully automatic processing equipped with high-temperature heat retention device Assembling bolt assembly drive with nearly the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three turbines with 21 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を22段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air, bringing it closer to 1200 degrees, heat production that repeats heating, compression and heat recovery + Fully automatic processing with a heat retention device is possible. Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three turbines with 22 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を23段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, with 23 stages, etc. and a horizontal axis (1h) at right angles to the square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を24段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and are equipped with 24 bolts and a horizontal axis (1h) at right angles to the square turbine outer box are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を25段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided with 25 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を26段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 26 stages, etc., with a horizontal axis (1h) at a right angle to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を27段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. Provided with generator and heat pump to drive 3 types of turbines to be assembled and assembled with bolts assembled to the same diameter and shape of the same diameter for each stage in 27 steps, etc. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を28段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery. + Fully automatic processing equipped with a heat retention device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines with the same diameter and substantially the same shape, and three types of turbines that are assembled and driven with 28 stages and the horizontal axis (1h) at right angles to the square turbine outer box. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を29段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached to 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with substantially the same diameter and having 29 stages or the like and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を30段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in assembling bolts with substantially the same diameter and 30 stages, etc., with a horizontal axis (1h) provided at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を31段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing the geothermal heating air, approaching 1200 degrees and repeating the heat and compression heat recovery. + Fully automatic processing equipped with a high temperature heat retaining device Various types of energy storage cycle coalescence engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, and three types of turbines to be assembled and driven with 31 stages and the horizontal axis (1h) at right angles to the square turbine outer box . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を32段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and save water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that have the same diameter and substantially the same shape and are fitted with assembling bolts and 32 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box . タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を33段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy conservation cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle of a square turbine outer box and 33 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を34段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Three types of turbines that can be assembled automatically and fitted with assembly bolts with the same diameter and the same shape for each paragraph so that they can be fully automated Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box at 34 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を35段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery from heat and compression + Three types of turbines that are equipped with a heat retaining device and can be assembled automatically and fitted with bolts assembling bolts with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle of a square turbine outer box and 35 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を36段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a high-temperature heat retaining device and that can be fully automated and can be assembled to fit bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle of square turbine outer box and 36 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を37段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box and 37 stages. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を38段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator that is equipped with a heat retaining device and is capable of full-automatic processing and is equipped with three types of turbines that are assembled and driven by fitting bolts with the same diameter and shape of each paragraph, with 38 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy storage cycle coalescing engines equipped with heat pumps. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を39段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator that is equipped with a heat retaining device and is capable of full automatic processing, with three stages of turbines that are assembled with assembling bolts with the same diameter and substantially the same shape as each stage, 39 stages, etc., and a horizontal axis (1h) that is driven at right angles to a square turbine outer box, Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を40段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator that is equipped with a heat retaining device and is capable of full automatic processing, and is equipped with three stages of turbines that are assembled with assembling bolts with the same diameter and substantially the same shape as 40 stages and the horizontal axis (1h) is provided with a rectangular turbine outer box at right angles. Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を41段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator that is equipped with a high-temperature heat insulation device and is capable of fully automatic processing and is equipped with three types of turbines that have the same diameter and substantially the same shape for each stage assembling bolts, and 41 stages and the horizontal axis (1h) is provided at right angles to the square turbine outer box. Various energy storage cycle coalescing engines equipped with heat pumps. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を42段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator that is equipped with a heat retaining device and is capable of full automatic processing and is equipped with three types of turbines that are assembled and driven by assembling bolts with the same diameter and the same shape for each paragraph and 42 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy storage cycle coalescing engines equipped with heat pumps. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を43段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator that is equipped with a heat retaining device and is capable of full automatic machining and is equipped with three types of turbines that are assembled and driven by fitting bolts with the same diameter and the same shape for each stage, with 43 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy storage cycle coalescing engines equipped with heat pumps. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を44段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator that is equipped with a heat retaining device and is capable of fully automatic processing, with three stages of the same diameter and approximately the same shape for each assembly bolt assembling bolt assembly drive, 44 stages, etc. and a horizontal axis (1h) with a square turbine outer box at right angles. Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を45段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator that is equipped with a heat retaining device and that can be fully automatically machined and has three stages of turbines that are assembled with assembling bolts with the same diameter and substantially the same shape as each other, 45 stages, etc., and a horizontal axis (1h) that is driven at right angles to a square turbine outer box. Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を46段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator that is equipped with a high-temperature heat insulation device and is capable of full automatic processing and is equipped with three types of turbines that are assembled and driven by assembling bolts with the same diameter and the same shape for each paragraph, with 46 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy storage cycle coalescing engines equipped with heat pumps. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を47段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator that is equipped with a heat retaining device and is capable of full automatic machining and is equipped with three types of turbines that are assembled and driven by fitting bolts with the same diameter and the same shape for each paragraph, with 47 stages and the horizontal axis (1h) at right angles to a square turbine outer box. Various energy storage cycle coalescing engines equipped with heat pumps. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を48段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with substantially the same diameter and 48 stages and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を49段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery with additional air + Fully automatic processing equipped with a heat retaining device The same diameter per paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in substantially the same shape and assembled with 49 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を50段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery for another air + Fully automatic processing equipped with a heat retention device Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three horizontal turbines (1h) provided at right angles to a square turbine outer box, with three types of turbines that are assembled and driven as substantially the same shape. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を51段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air and brought it close to 1200 ° C, heat production by repeating heating and compression heat recovery + Fully automatic processing with a high temperature heat retention device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in assembling bolts with approximately the same diameter and 51 stages, etc., with a horizontal axis (1h) provided at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を52段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 ° C, repeated heating and heat recovery for another air + Fully automatic processing with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having a horizontal axis (1h) at right angles to a square turbine outer box at 52 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を53段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in the same shape in diameter and fitted with assembly bolts in 53 stages and the horizontal axis (1h) at a right angle to the outer casing of the square turbine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を54段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with substantially the same diameter and 54 horizontal stages (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を55段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in assembling bolts with approximately the same diameter and 55 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を56段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with substantially the same diameter and having 56 stages or the like and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を57段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in the same shape in diameter with 57 bolts and a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を58段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery with additional air + Fully automatic processing equipped with a heat retaining device The same diameter per paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled and driven assembling bolts in approximately the same shape with 58 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を59段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery with additional air + Fully automatic processing equipped with a heat retaining device The same diameter per paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines that are assembled in substantially the same form and fitted with 59 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を60段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery with additional air + Fully automatic processing equipped with a heat retaining device The same diameter per paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled and driven assembling bolts in approximately the same shape and having a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を61段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery with additional air + Fully automatic processing equipped with a heat retaining device The same diameter per paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in substantially the same shape and having 61 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を62段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery with additional air + Fully automatic processing equipped with a heat retaining device The same diameter per paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in approximately the same shape and assembled to 62 stages, etc., with a horizontal axis (1h) at a right angle to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を63段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery for another air + Fully automatic processing equipped with a heat retention device Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in approximately the same shape and fitted with 63 bolts and a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を64段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery for another air + Fully automatic processing equipped with a heat retention device Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled and driven assembling bolts in approximately the same shape, with 64 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を65段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery for another air + Fully automatic processing equipped with a heat retention device Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in approximately the same shape and fitted with 65 bolts, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を66段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery for another air + Fully automatic processing equipped with a heat retention device Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in almost the same shape and assembled with 66 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を67段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery for another air + Fully automatic processing equipped with a heat retention device Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in almost the same shape and assembled with 67 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を68段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air and brought it close to 1200 ° C, heat production by repeating heating and compression heat recovery + Fully automatic processing with a high temperature heat retention device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 68 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を69段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air and brought it close to 1200 ° C, heat production by repeating heating and compression heat recovery + Fully automatic processing with a high temperature heat retention device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 69 stages or the like and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を70段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air and brought it close to 1200 ° C, heat production by repeating heating and compression heat recovery + Fully automatic processing with a high temperature heat retention device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and 70 stages or the like and a horizontal axis (1h) having a rectangular turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を71段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air and brought it close to 1200 ° C, heat production by repeating heating and compression heat recovery + Fully automatic processing with a high temperature heat retention device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in the same shape in diameter and fitted with 71 bolts and a horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を72段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air and brought it close to 1200 ° C, heat production by repeating heating and compression heat recovery + Fully automatic processing with a high temperature heat retention device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 72 stages or the like and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を73段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 ° C, repeated heating and heat recovery for another air + Fully automatic processing with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled to approximately the same diameter in diameter and fitted with 73 stages, etc. with a horizontal axis (1h) at a right angle to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を74段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 ° C, repeated heating and heat recovery for another air + Fully automatic processing with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled to fit bolts with approximately the same diameter and 74 stages and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を75段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 ° C, repeated heating and heat recovery for another air + Fully automatic processing with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 75 stages or the like and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を76段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 ° C, repeated heating and heat recovery for another air + Fully automatic processing with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 76 stages or the like and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を77段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 ° C, repeated heating and heat recovery for another air + Fully automatic processing with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 77 stages or the like and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を設けた全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を78段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal heating air, approached to 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing with heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 78 stages or the like and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を設けた全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を79段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal heating air, approached to 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing with heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 79 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を設けた全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を80段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal heating air, approached to 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing with heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 80 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を設けた全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を81段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal heating air, approached to 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing with heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 81 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を設けた全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を82段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal heating air, approached to 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing with heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 82 stages or the like and a horizontal axis (1h) provided at a right angle to a rectangular turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を83段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repetitive heat production + Fully automatic processing equipped with a heat retaining device Three stages of turbines to be assembled and fitted with fitting bolts with the same diameter and shape of each paragraph are provided in 83 stages, and the horizontal axis (1h) is provided at right angles to the square turbine outer box. Various energy storage cycle coalescing engines with a generator and heat pump to drive. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を84段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repetitive heat production + Fully automatic machining with heat insulation equipment, with the same diameter and diameter of each paragraph, assembling bolt assembly drive with 3 types of turbines, 84 stages, etc. with horizontal axis (1h) with right angle of square turbine casing and drive Various energy storage cycle coalescing engines equipped with generators and heat pumps. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を85段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + Insulation machine equipped with a heat retaining device Fully automatic processing is possible with three stages of turbines that are assembled and fitted with fitting bolts with the same diameter and shape of each paragraph. The horizontal axis (1h) is driven with a square turbine outer box at right angles. Various energy storage cycle coalescing engines equipped with generators and heat pumps. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を86段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + high-temperature heat insulation device equipped with fully automatic processing, with the same diameter and diameter of each paragraph, and three types of turbines to be assembled and driven by assembling bolts, 86 stages, etc. with horizontal axis (1h) at right angles to square turbine outer box Various energy storage cycle coalescing engines with a generator and heat pump to drive. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を87段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repetitive heat production + Insulating machine with heat retention equipment, fully automatic machining with the same diameter and shape of each paragraph, and three types of turbines that drive the assembly of bolts to be assembled. Various energy storage cycle coalescing engines with a generator and heat pump to drive. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を88段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, 88 stages etc. with horizontal axis (1h) at right angle to square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を89段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided with 89 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を90段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each of the automatically machined bolts and that have 90 stages or the like and a horizontal axis (1h) perpendicular to the rectangular turbine outer box are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を91段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and the same shape for each fully automatic machining, with 91 stages, etc., and a horizontal axis (1h) at right angles to the square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を92段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. A generator and a heat pump are provided that are driven by three-stage turbines that have the same diameter and substantially the same shape for each stage and are equipped with 92 stages, etc., with a horizontal axis (1h) at a right angle to the rectangular outer casing. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を93段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retention device Assembling bolt assembly drive with almost the same shape for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps to drive three types of turbines with 93 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を94段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with 94 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を95段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three turbines with 95 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を96段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it closer to 1200 ° C Heat production that repeats heat and compression heat recovery + Fully automatic processing equipped with high-temperature heat retention device Assembling bolt assembly drive with nearly the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with 96 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を97段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air, bringing it closer to 1200 degrees, heat production that repeats heating, compression and heat recovery + Fully automatic processing with a heat retention device is possible. Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three turbines with 97 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を98段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and approximately the same shape for every automatic machining, 98 stages, etc. with horizontal axis (1h) at right angles to square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を99段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided with 99 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を100段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and heat pump for driving three-stage turbines that have the same diameter and approximately the same shape for each stage and that can be automatically machined are equipped with 100 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を101段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device Provided with generator and heat pump to drive three types of turbines that have the same diameter and substantially the same shape for each stage and can be assembled into fully automatic machining, with 101 stages, etc. and a horizontal axis (1h) at right angles to a square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を102段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. A generator and a heat pump are installed to drive three types of turbines that have the same diameter and substantially the same shape for each stage and can be assembled fully automatically. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を103段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery. + Fully automatic processing equipped with a heat retention device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines with the same diameter and substantially the same shape and 103 bolts and a horizontal axis (1h) provided at right angles to the square turbine outer box. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を104段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached to 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled to fit bolts with substantially the same diameter, with 104 stages and the horizontal axis (1h) provided at a right angle to the outer casing of the square turbine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を105段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and 105 stages or the like, and the horizontal axis (1h) is driven at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を106段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing a multi-stage hydrogravity geothermal turbine with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing the geothermal heating air, approaching 1200 degrees and repeating the heat, compression and heat recovery. + Fully automatic processing equipped with a high temperature heat retaining device. Various types of energy storage cycle coalescence engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, assembling bolts for driving and having 106 stages and the horizontal axis (1h) at right angles to the square turbine outer box. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を107段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing a multi-stage hydrogravity geothermal turbine with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and save water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that have three types of turbines with the same diameter and substantially the same shape, and three types of turbines that are assembled and driven with 107 stages and a horizontal axis (1h) at right angles to the square turbine outer box. . タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を108段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy conservation cycle coalescing engines equipped with generators and heat pumps that are driven with 108 horizontal stages (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を109段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Three types of turbines that can be assembled automatically and fitted with assembly bolts with the same diameter and the same shape for each paragraph so that they can be fully automated Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) having a right angle of square turbine outer box at 109 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を110段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery from heat and compression + Three types of turbines that are equipped with a heat retaining device and can be assembled automatically and fitted with bolts assembling bolts with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a 110-stage horizontal axis (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を111段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a high-temperature heat retaining device and that can be fully automated and can be assembled to fit bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having a horizontal axis (1h) at right angles to a square turbine outer box with 111 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を112段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy conservation cycle coalescing engines equipped with generators and heat pumps that are driven with 112 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を113段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines that have the same diameter and almost the same shape for each stage, and have 113 stages, etc., with a horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を114段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided with 114 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を115段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump are provided to drive three types of turbines that have the same diameter and substantially the same shape for each stage so that they can be automatically machined, and are equipped with 115 stages and the horizontal axis (1h) at a right angle to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を116段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device A generator and a heat pump are provided to drive the three types of turbines that have the same diameter and substantially the same shape for each stage and are equipped with 116 bolts and a horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を117段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. A generator and a heat pump are installed to drive three-stage turbines with the same diameter and approximately the same shape for each fully-automated machining, with 117 stages, etc., equipped with a horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を118段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retention device Assembling bolt assembly drive with almost the same shape for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines having 118 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を119段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with 119 stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を120段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with 120 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を1段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it closer to 1200 ° C Heat production that repeats heat and compression heat recovery + Fully automatic processing equipped with high-temperature heat retention device Assembling bolt assembly drive with nearly the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps to drive three types of turbines with one stage and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を2段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air, bringing it closer to 1200 degrees, heat production that repeats heating, compression and heat recovery + Fully automatic processing with a heat retention device is possible. Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with two stages etc. and a horizontal axis (1h) having a rectangular turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を3段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage and are equipped with three horizontal stages (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を4段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage to be automatically machined, with four stages, etc., and a horizontal axis (1h) at a right angle to the rectangular turbine outer box are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を5段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided with five stages, etc., and the horizontal axis (1h) is perpendicular to the rectangular turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を6段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device A generator and heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage in a fully automatic form, with 6 stages, etc., and a horizontal axis (1h) perpendicular to the square turbine outer box are installed. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を7段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage and are equipped with 7 stages, etc., and the horizontal axis (1h) is perpendicular to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を8段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery. + Fully automatic processing equipped with a heat retention device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines of the same diameter and approximately the same shape, and three types of turbines that are assembled and driven by 8 bolts and a horizontal axis (1h) with a square turbine outer box at right angles. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を9段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached to 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with substantially the same diameter and having nine stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を10段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with substantially the same diameter and having 10 stages or the like and a horizontal axis (1h) provided at a right angle to a rectangular turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を11段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing the geothermal heating air, approaching 1200 degrees and repeating the heat, compression and heat recovery. + Fully automatic processing equipped with a high temperature heat retaining device. Various types of energy storage cycle coalescence engines equipped with generators and heat pumps that have three types of turbines with the same diameter and substantially the same shape and are fitted with three stages of fitting bolts and driven with 11 stages and the horizontal axis (1h) at right angles to the square turbine outer box. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を12段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and save water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines with the same diameter and substantially the same shape, as well as three types of turbines that drive the assembly of assembling bolts in 12 stages, etc. . タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を13段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a 13-stage type and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を14段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Three types of turbines that can be assembled automatically and fitted with assembly bolts with the same diameter and the same shape for each paragraph so that they can be fully automated Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box at 14 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を15段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery from heat and compression + Three types of turbines that are equipped with a heat retaining device and can be assembled automatically and fitted with bolts assembling bolts with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) having a right angle on a square turbine outer box in 15 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を16段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a high-temperature heat retaining device and that can be fully automated and can be assembled to fit bolts with the same diameter and shape of each paragraph Various energy conservation cycle coalescing engines equipped with generators and heat pumps that are driven with a 16-stage type horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を17段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 17 horizontal stages (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を18段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, 18 stages, etc. with horizontal axis (1h) at right angle to square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を19段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined and equipped with 19 stages, etc., with a horizontal axis (1h) at a right angle to the rectangular turbine outer box are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を20段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump are provided to drive three types of turbines that have the same diameter and substantially the same shape for each stage so that they can be automatically machined, and that have 20 stages, etc., and a horizontal axis (1h) with a rectangular turbine outer box at right angles. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を21段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device Provided with generator and heat pump to drive 3 types of turbines to be assembled and fitted with bolts assembled to the same diameter and almost the same shape for each stage in 21 stages, etc. with horizontal axis (1h) at right angles to square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を22段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. A generator and a heat pump are provided to drive three types of turbines that are assembled in assembling bolts with the same diameter and substantially the same shape for each stage so that they can be fully automatically machined. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を23段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retention device Assembling bolt assembly drive with almost the same shape for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three turbines with 23 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を24段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three turbines with 24 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を25段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines having 25 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を26段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it closer to 1200 ° C Heat production that repeats heat and compression heat recovery + Fully automatic processing equipped with high-temperature heat retention device Assembling bolt assembly drive with nearly the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines having 26 stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を27段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air, bringing it closer to 1200 degrees, heat production that repeats heating, compression and heat recovery + Fully automatic processing with a heat retention device is possible. Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three turbines with 27 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を28段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines to be assembled and assembled with 28 bolts, etc. with a horizontal axis (1h) at right angles to a square-type turbine outer box so that it can be fully automatically machined with the same diameter and shape of each paragraph. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を29段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage and can be automatically machined. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を30段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines, which have the same diameter and substantially the same shape for each stage so that they can be automatically machined, are provided with 30 stages and the horizontal axis (1h) at a right angle to the rectangular turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を31段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 31 stages, etc., with a horizontal axis (1h) at a right angle to the outer casing of the square turbine. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を32段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for each stage, 32 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を33段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery. + Fully automatic processing equipped with a heat retention device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, and three types of turbines to be assembled and driven in 33 stages, etc. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を34段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached to 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 34 stages or the like and a horizontal axis (1h) with a rectangular turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を35段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in assembling bolts with approximately the same diameter and 35 stages and a horizontal axis (1h) provided at a right angle to the outer casing of a square turbine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を36段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing the geothermal heating air, approaching 1200 degrees and repeating the heat, compression and heat recovery. + Fully automatic processing equipped with a high temperature heat retaining device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, as well as 36 types of turbines to drive assembly with 36 stages and the horizontal axis (1h) at right angles to the square turbine outer box . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を37段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and save water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines with the same diameter and substantially the same shape, and three types of turbines that are assembled and driven with 37 stages and the horizontal axis (1h) at right angles to the square turbine outer box . タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を38段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 38 horizontal stages (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を39段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Three types of turbines that can be assembled automatically and fitted with assembly bolts with the same diameter and the same shape for each paragraph so that they can be fully automated Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a 39-stage horizontal axis (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を40段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery from heat and compression + Three types of turbines that are equipped with a heat retaining device and can be assembled automatically and fitted with bolts assembling bolts with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle in a square turbine outer box and 40 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を41段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a high-temperature heat retaining device and that can be fully automated and can be assembled to fit bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 41 horizontal stages (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を42段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 42 horizontal stages (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を43段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, with 43 stages and so on, with a horizontal axis (1h) at right angles to the square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を44段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump are provided to drive the three types of turbines that are assembled with assembling bolts with the same diameter and the same shape for each stage so that they can be automatically machined, with 44 stages and the horizontal axis (1h) provided at a right angle to the rectangular turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を45段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each machining stage and that have three horizontal stages (1h) at right angles to the square turbine outer box are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力発電タービンを46段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+水を垂直下方に加速転がり接触として発電の3種類タービンの動翼群を段落毎に同径略同形として嵌合ボルト組立タービン駆動+地熱空気加熱器で地熱回収する各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing 46-stage hydrogravity power turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating the use of heat and cold + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the rectangular turbine outer box to save and store water. + Heat production by compressing geothermal heating air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compressing heat + Water vertically downward Various energy storage cycle coalescence engine that collects turbine blades of three kinds of turbines for power generation as accelerated rolling contact with the same diameter and the same shape for each paragraph and recovers geothermal heat with a mating bolt assembly turbine drive + geothermal air heater. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を47段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. Provided with generator and heat pump to drive 3 types of turbines that have the same diameter and almost the same shape for each stage and are equipped with 47 bolts, etc. with a horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を48段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retention device Assembling bolt assembly drive with almost the same shape for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three turbines with 48 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を49段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three turbines with 49 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を50段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three turbines with 50 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を51段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it closer to 1200 ° C Heat production that repeats heat and compression heat recovery + Fully automatic processing equipped with high-temperature heat retention device Assembling bolt assembly drive with nearly the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three turbines with 51 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を52段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air, bringing it closer to 1200 degrees, heat production that repeats heating, compression and heat recovery + Fully automatic processing with a heat retention device is possible. Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three turbines with 52 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を53段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. A generator and a heat pump are provided to drive three-stage turbines with the same diameter and approximately the same shape for each fully-automated machining, with 53 stages, etc., and a horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を54段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and are equipped with 54 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を55段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage to be automatically machined and equipped with 55 stages, etc., with a horizontal axis (1h) perpendicular to a rectangular turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を56段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device A generator and a heat pump are provided to drive three-stage turbines with the same diameter and substantially the same shape for each fully-automatic machining, with 56 stages, etc., and a horizontal axis (1h) provided at right angles to a square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を57段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for full automatic machining, 57 stages etc. with horizontal axis (1h) at right angles to square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を58段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery. + Fully automatic processing equipped with a heat retention device. Various energy storage cycle coalescing engines equipped with generators and heat pumps with three types of turbines that have the same diameter and substantially the same shape, and three types of turbines to be assembled and driven, with 58 stages and the horizontal axis (1h) at right angles to the square turbine outer box . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を59段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached to 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and 59 stages, etc., with a horizontal axis (1h) provided at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を60段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in assembling bolts with approximately the same diameter and 60 stages and the horizontal axis (1h) at a right angle to the outer casing of the square turbine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を61段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing the geothermal heating air, approaching 1200 degrees and repeating the heat, compression and heat recovery. + Fully automatic processing equipped with a high temperature heat retaining device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, assembling bolts and driving with 61 stages and the horizontal axis (1h) at right angles to the square turbine outer box . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を62段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and save water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, as well as 62 types of turbines that drive the assembly of the bolts and the horizontal axis (1h) at right angles to the square turbine outer box. . タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を63段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box with 63 stages and so on. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を64段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Three types of turbines that can be assembled automatically and fitted with assembly bolts with the same diameter and the same shape for each paragraph so that they can be fully automated Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) having a right angle of square turbine outer box and 64 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を65段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery from heat and compression + Three types of turbines that are equipped with a heat retaining device and can be assembled automatically and fitted with bolts assembling bolts with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box at 65 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を66段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a high-temperature heat retaining device and that can be fully automated and can be assembled to fit bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 66 horizontal stages (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を67段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box with 67 stages and so on. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を68段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. A generator and a heat pump are provided that are driven by three-stage turbines with 68-stage horizontal shafts (1h) at right angles to a square-shaped turbine outer box so that they can be fully automated and processed with the same diameter and shape of each paragraph. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を69段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each of the automatically-fabricated bolts and are equipped with 69 stages and the horizontal axis (1h) at right angles to the square turbine outer box are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を70段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each machining stage and are equipped with 70 types of turbines and a horizontal axis (1h) at right angles to a square turbine outer box are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を71段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device A generator and a heat pump are provided to drive three types of turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 71 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box at right angles. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を72段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. A generator and a heat pump are provided that are driven by three types of turbines that are assembled in assembling bolts with the same diameter and substantially the same shape for each stage and are equipped with 72 stages, etc., with a horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を73段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retention device Assembling bolt assembly drive with almost the same shape for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps to drive three types of turbines with 73 stages etc. and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を74段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with 74 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を75段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with 75 stages or the like and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を76段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it closer to 1200 ° C Heat production that repeats heat and compression heat recovery + Fully automatic processing equipped with high-temperature heat retention device Assembling bolt assembly drive with nearly the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three turbines with 76 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を77段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air, bringing it closer to 1200 degrees, heat production that repeats heating, compression and heat recovery + Fully automatic processing with a heat retention device is possible. Various energy storage cycle coalescing engines equipped with generators and heat pumps to drive three types of turbines with 77 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を78段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, 78 stages, etc. with horizontal axis (1h) at right angle to square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を79段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided with 79 stages and the horizontal axis (1h) at a right angle to the rectangular turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を80段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and heat pump for driving three-stage turbines with the same diameter and substantially the same shape for each stage to be automatically machined, with 80 stages, etc., and a horizontal axis (1h) at right angles to the square turbine outer box are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を81段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, 81 stages etc. with horizontal axis (1h) at right angle to square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を82段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. A generator and a heat pump are installed to drive three types of turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 82 stages, etc., with a horizontal axis (1h) at a right angle to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を83段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery. + Fully automatic processing equipped with a heat retention device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines with the same diameter and substantially the same shape, and three types of turbines that are assembled and driven by 83 bolts and a horizontal axis (1h) at a right angle to the outer casing of a square turbine. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を84段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached to 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and 84 stages, etc., with a horizontal axis (1h) provided at a right angle to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を85段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with substantially the same diameter and having 85 stages or the like and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を86段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing the geothermal heating air, approaching 1200 degrees and repeating the heat, compression and heat recovery. + Fully automatic processing equipped with a high temperature heat retaining device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that have three types of turbines that have the same diameter and substantially the same shape and are fitted with three stages of assembly bolts and drive with 86 stages and the horizontal axis (1h) at right angles to the square turbine outer box . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を87段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and save water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines of the same diameter and substantially the same shape, and three types of turbines that drive and drive fitting bolts with 87 stages and the horizontal axis (1h) at right angles to the square turbine outer box. . タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を88段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box with 88 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を89段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Three types of turbines that can be assembled automatically and fitted with assembly bolts with the same diameter and the same shape for each paragraph so that they can be fully automated Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having a horizontal axis (1h) with a right angle on the square turbine outer box in 89 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を90段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery from heat and compression + Three types of turbines that are equipped with a heat retaining device and can be assembled automatically and fitted with bolts assembling bolts with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at 90 degrees and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を91段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a high-temperature heat retaining device and that can be fully automated and can be assembled to fit bolts with the same diameter and shape of each paragraph Various energy conservation cycle coalescing engines equipped with generators and heat pumps that are driven by having a horizontal axis (1h) at right angles to a square turbine outer box with 91 stages and so on. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を92段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 92 horizontal stages and a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を93段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. A generator and a heat pump are installed that are equipped with three types of turbines that can be assembled and assembled with the same diameter and approximately the same shape for each stage, with 93 stages, etc. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を94段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump are provided to drive three types of turbines that have the same diameter and substantially the same shape for each stage so that they can be automatically machined. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を95段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and are equipped with 95 bolts and a horizontal axis (1h) at right angles to the square turbine outer box are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を96段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device A generator and a heat pump are provided to drive the three-stage turbine with 96 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box so that it can be fully automatically machined with the same diameter and shape as each paragraph. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を97段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. A generator and a heat pump are installed to drive three-stage turbines with the same diameter and shape of the same shape, and 97 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を98段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retention device Assembling bolt assembly drive with almost the same shape for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with 98 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を99段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three turbines with 99 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を100段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three turbines with 100 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を101段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it closer to 1200 ° C Heat production that repeats heat and compression heat recovery + Fully automatic processing equipped with high-temperature heat retention device Assembling bolt assembly drive with nearly the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with 101 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を102段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air, bringing it closer to 1200 degrees, heat production that repeats heating, compression and heat recovery + Fully automatic processing with a heat retention device is possible. Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three turbines with 102 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を103段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive three types of turbines that have the same diameter and almost the same shape for each paragraph and can be assembled fully automatically, with 103 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を104段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided with 104 stages and the horizontal axis (1h) at a right angle to the rectangular turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を105段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided with 105 stages, etc., and a horizontal axis (1h) provided at a right angle to a rectangular turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を106段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device A generator and a heat pump are installed to drive three types of turbines that have the same diameter and substantially the same shape for each stage so that they can be fully automatically machined. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を107段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. Provided with generator and heat pump to drive 3 types of turbines that have the same diameter and almost the same shape for each stage and can be fully automated, and have 107 horizontal stages (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を108段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery. + Fully automatic processing equipped with a heat retention device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that have three types of turbines with the same diameter and substantially the same shape, and three types of turbines that drive the assembly of assembling bolts with 108 stages and the horizontal axis (1h) provided at right angles to the square turbine outer box. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を109段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached to 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that have the same diameter as the fitting bolt assembly driven by 109 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を110段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that have the same diameter as the fitting bolt assembly driven to 110 stages and the horizontal axis (1h) with a rectangular turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を111段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing the geothermal heating air, approaching 1200 degrees and repeating the heat, compression and heat recovery. + Fully automatic processing equipped with a high temperature heat retaining device. Various types of energy storage cycle coalescence engines equipped with generators and heat pumps that have three types of turbines with the same diameter and substantially the same shape, and three types of turbines that are assembled and driven with 111 stages, etc., and a horizontal axis (1h) with a right angle square outer casing. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を112段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and save water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, and three types of turbines to be assembled and driven with 112 stages and the horizontal axis (1h) having a rectangular turbine outer box at right angles . タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を113段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy conservation cycle coalescing engines equipped with generators and heat pumps that are driven with 113 horizontal stages (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を114段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Three types of turbines that can be assembled automatically and fitted with assembly bolts with the same diameter and the same shape for each paragraph so that they can be fully automated Various energy storage cycle coalescence engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at right angles to a square turbine outer box at 114 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を115段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery from heat and compression + Three types of turbines that are equipped with a heat retaining device and can be assembled automatically and fitted with bolts assembling bolts with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box at 115 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を116段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a high-temperature heat retaining device and that can be fully automated and can be assembled to fit bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a 116-stage type and a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を117段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy conservation cycle coalescing engines equipped with generators and heat pumps that are driven with a 117-stage type and a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を118段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines that have the same diameter and almost the same shape for each stage, 118 stages, etc., and the horizontal axis (1h) is perpendicular to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を119段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three types of turbines to be assembled and assembled with the same diameter and substantially the same shape for each of the automatic machining stages and having a horizontal axis (1h) at right angles to the rectangular turbine outer box at 119 stages and the like are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を120段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage so that they can be automatically machined are provided with 120 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を1段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage so that they can be fully automatically machined. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を2段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage so that they can be fully automatically machined. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を3段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retention device Assembling bolt assembly drive with almost the same shape for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps to drive three types of turbines with three stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を4段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with four stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を5段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with 5 stages etc. and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を6段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it closer to 1200 ° C Heat production that repeats heat and compression heat recovery + Fully automatic processing equipped with high-temperature heat retention device Assembling bolt assembly drive with nearly the same diameter for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three types of turbines with six stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を7段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air, bringing it closer to 1200 degrees, heat production that repeats heating, compression and heat recovery + Fully automatic processing with a heat retention device is possible. Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with seven stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を8段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Equipped with generators and heat pumps that are driven by three-stage turbines that have the same diameter and substantially the same shape for each stage and are equipped with 8 stages of horizontal bolts (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を9段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage in 9 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を10段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and are equipped with 10 stages, etc., with a horizontal axis (1h) at a right angle to the outer box of the square turbine are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を11段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device Provided with generator and heat pump to drive 3 types of turbines that have the same diameter and almost the same shape for each stage, 11 stages, etc. and the horizontal axis (1h) is perpendicular to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を12段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. Provided with generator and heat pump to drive 3 types of turbines to be assembled and fitted assembling bolts with the same diameter and almost the same shape for each stage in 12 stages, etc. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を13段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery. + Fully automatic processing equipped with a heat retention device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that have the same diameter and substantially the same shape and are fitted with 13 stages, etc., and a horizontal axis (1h) with a square turbine outer box at right angles . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を14段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached to 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in the same shape in diameter and assembled with 14 bolts and a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を15段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts of approximately the same diameter and having 15 stages or the like and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を16段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing the geothermal heating air, approaching 1200 degrees and repeating the heat, compression and heat recovery. + Fully automatic processing equipped with a high temperature heat retaining device. Various types of energy storage cycle coalescence engines equipped with generators and heat pumps that are driven with three types of turbines that have the same diameter and substantially the same shape, as well as three types of turbines that drive the assembly of 16 bolts and the horizontal axis (1h) at right angles to the square turbine outer box. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を17段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and save water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that have three types of turbines with the same diameter and substantially the same shape, and three types of turbines that drive the assembly of assembling bolts with 17 stages, etc. . タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を18段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 18 horizontal stages (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を19段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Three types of turbines that can be assembled automatically and fitted with assembly bolts with the same diameter and the same shape for each paragraph so that they can be fully automated Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を20段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery from heat and compression + Three types of turbines that are equipped with a heat retaining device and can be assembled automatically and fitted with bolts assembling bolts with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a 20-stage horizontal axis (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を21段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a high-temperature heat retaining device and that can be fully automated and can be assembled to fit bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 21 horizontal stages (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を22段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 22 horizontal stages (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を23段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, with 23 stages, etc. and a horizontal axis (1h) at right angles to the square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を24段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and are equipped with 24 bolts and a horizontal axis (1h) at right angles to the square turbine outer box are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を25段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided with 25 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を26段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 26 stages, etc., with a horizontal axis (1h) at a right angle to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を27段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. Provided with generator and heat pump to drive 3 types of turbines to be assembled and assembled with bolts assembled to the same diameter and shape of the same diameter for each stage in 27 steps, etc. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を28段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retention device Assembling bolt assembly drive with almost the same shape for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps to drive three types of turbines with 28 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を29段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with 29 stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を30段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three turbines with 30 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を31段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it closer to 1200 ° C Heat production that repeats heat and compression heat recovery + Fully automatic processing equipped with high-temperature heat retention device Assembling bolt assembly drive with nearly the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three turbines with 31 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を32段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air, bringing it closer to 1200 degrees, heat production that repeats heating, compression and heat recovery + Fully automatic processing with a heat retention device is possible. Various energy storage cycle coalescing engines equipped with generators and heat pumps to drive three types of turbines with 32 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を33段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, with 33 stages, etc. and a horizontal axis (1h) at right angles to a square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を34段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided with 34 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を35段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided in 35 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を36段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 36 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box at right angles. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を37段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for each stage, 37 stages, etc. with horizontal axis (1h) at right angle to square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を38段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery. + Fully automatic processing equipped with a heat retention device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that have the same diameter and substantially the same shape and are fitted with 38 types of turbines and a horizontal axis (1h) at right angles to the square turbine outer box. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を39段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached to 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps with 39 horizontal stages (1h) provided at right angles to the square turbine outer box, and three types of turbines that are assembled with assembling bolts and are assembled with substantially the same diameter. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を40段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in assembling bolts with approximately the same diameter and 40 stages and a horizontal axis (1h) provided at a right angle to the outer casing of the square turbine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を41段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing the geothermal heating air, approaching 1200 degrees and repeating the heat, compression and heat recovery. + Fully automatic processing equipped with a high temperature heat retaining device. Various types of energy storage cycle coalescence engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, assembling bolts and driving with 41 stages and the horizontal axis (1h) at right angles to the square turbine outer box . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を42段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and save water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that have three types of turbines with the same diameter and substantially the same shape and are fitted with assembling bolts and driven with 42 stages and the horizontal axis (1h) at right angles to the square turbine outer box . タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を43段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 43 horizontal stages (1h) and a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を44段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Three types of turbines that can be assembled automatically and fitted with assembly bolts with the same diameter and the same shape for each paragraph so that they can be fully automated Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) having a right angle on the square turbine outer box and 44 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を45段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery from heat and compression + Three types of turbines that are equipped with a heat retaining device and can be assembled automatically and fitted with bolts assembling bolts with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を46段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a high-temperature heat retaining device and that can be fully automated and can be assembled to fit bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with 46 horizontal stages and a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を47段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a 47-stage type and a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を48段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator that is equipped with a heat retaining device and is capable of full automatic processing and is equipped with three types of turbines to be assembled and driven with assembling bolts with the same diameter for each paragraph and 48 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy storage cycle coalescing engines equipped with heat pumps. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を49段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator that is equipped with a heat retaining device and is capable of fully automatic processing, with three stages of turbines that are assembled and driven by assembly bolts with the same diameter and substantially the same shape, with 49 stages and the horizontal axis (1h) provided with a rectangular turbine outer box at right angles. Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を50段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator that is equipped with a heat retaining device and that can be fully automated and can be driven with three stages of turbines that have the same diameter and substantially the same shape for each assembly bolt as many as 50 stages and a horizontal axis (1h) that has a rectangular turbine outer box at right angles. Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を51段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator that is equipped with a high-temperature heat insulation device and is capable of fully automatic processing and is equipped with three types of turbines that have the same diameter and substantially the same shape for each stage and that are assembled and driven by 51 stages and the horizontal axis (1h) at right angles to a square turbine outer box. Various energy storage cycle coalescing engines equipped with heat pumps. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を52段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator that is equipped with a heat retaining device and is capable of full automatic machining and is equipped with three types of turbines that are assembled and driven by assembling bolts with the same diameter and the same shape for each paragraph, with 52 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy storage cycle coalescing engines equipped with heat pumps. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を53段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator that is equipped with a heat retaining device and that can be fully automatically machined and is equipped with three types of turbines that are assembled and driven by assembling bolts with the same diameter and the same shape for each stage, with 53 stages and the horizontal axis (1h) at right angles to a square turbine outer box. Various energy storage cycle coalescing engines equipped with heat pumps. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を54段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator that is equipped with a heat retaining device and is capable of fully automatic processing, and is equipped with three types of turbines to be assembled and fitted with fitting bolts with the same diameter and substantially the same shape as each stage, with 54 stages and the horizontal axis (1h) provided at right angles to a square turbine outer box, Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を55段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator that is equipped with a heat retaining device and that can be fully automatic machined and that has three stages of the same diameter and substantially the same shape for each assembly bolt assembling bolts and is driven with 55 stages and the horizontal axis (1h) at right angles to a square turbine outer box. Various energy storage cycle coalescence engine with heat pump. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を56段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator that is equipped with a high-temperature heat insulation device and is capable of full automatic processing and is equipped with three types of turbines that are assembled and driven with assembling bolts with the same diameter and shape of each paragraph, with 56 stages and the horizontal axis (1h) at right angles to a square turbine outer box. Various energy storage cycle coalescing engines equipped with heat pumps. タービン翼断面(4X)を2〜26倍の水重力発電水を垂直下方に加速する構成や方法+地熱で加熱の空気を吸入圧縮熱回収して過熱蒸気(50)と圧縮空気(28a)で夫々タービン駆動する+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を57段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the vertical direction of water gravity power generation 2 to 26 times the turbine blade cross-section (4X) + the heat of the heat heated by geothermal heat and recovering the compressed heat with superheated steam (50) and compressed air (28a) Turbine driven + A pumping device (1J) is installed at the corner of the square turbine outer box to save and save water + Heat production by compressing geothermal air and bringing it closer to 1200 degrees and repeating heat recovery by heating and compression + A generator that is equipped with a heat retaining device and that can be fully automatic machined and is equipped with three types of turbines to be assembled and driven with assembling bolts with the same diameter and substantially the same shape for 57 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy storage cycle coalescing engines equipped with heat pumps. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を58段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 58 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を59段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery with additional air + Fully automatic processing equipped with a heat retaining device The same diameter per paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines that are assembled in substantially the same form and fitted with 59 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を60段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery for another air + Fully automatic processing equipped with a heat retention device Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled and driven assembling bolts in approximately the same shape and having a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を61段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air and brought it close to 1200 ° C, heat production by repeating heating and compression heat recovery + Fully automatic processing with a high temperature heat retention device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with substantially the same diameter and 61 stages and the horizontal axis (1h) is provided at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を62段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 ° C, repeated heating and heat recovery for another air + Fully automatic processing with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and 62 horizontal stages (1h) with a horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を63段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in assembling bolts with approximately the same diameter and 63 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を64段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with substantially the same diameter and 64 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を65段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 65 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を66段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 66 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を67段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air, approached 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 67 stages or the like and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を68段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery with additional air + Fully automatic processing equipped with a heat retaining device The same diameter per paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in approximately the same shape and assembled with 68 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を69段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery with additional air + Fully automatic processing equipped with a heat retaining device The same diameter per paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled and driven assembling bolts in approximately the same shape and having a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を70段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery with additional air + Fully automatic processing equipped with a heat retaining device The same diameter per paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines to be assembled and driven in approximately the same shape with 70 stages and the horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を71段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery with additional air + Fully automatic processing equipped with a heat retaining device The same diameter per paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled and driven assembling bolts in approximately the same shape and having 71 stages or the like and a horizontal axis (1h) provided at a right angle to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を72段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery with additional air + Fully automatic processing equipped with a heat retaining device The same diameter per paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled and driven assembling bolts in approximately the same shape and having a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を73段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery for another air + Fully automatic processing equipped with a heat retention device Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in nearly the same shape and fitted with 73 bolts and a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を74段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery for another air + Fully automatic processing equipped with a heat retention device Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled and driven assembling bolts in nearly the same shape and are driven with 74 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を75段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery for another air + Fully automatic processing equipped with a heat retention device Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in substantially the same shape and fitted with 75 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を76段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery for another air + Fully automatic processing equipped with a heat retention device Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled and driven assembling bolts in nearly the same shape and having a horizontal axis (1h) at right angles to a square turbine outer box at 76 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を77段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 degrees and repeated heat and compressed heat recovery for another air + Fully automatic processing equipped with a heat retention device Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled and driven assembling bolts in nearly the same shape and having 77 stages or the like and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を78段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air and brought it close to 1200 ° C, heat production by repeating heating and compression heat recovery + Fully automatic processing with a high temperature heat retention device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 78 stages or the like and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を79段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air and brought it close to 1200 ° C, heat production by repeating heating and compression heat recovery + Fully automatic processing with a high temperature heat retention device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 79 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を80段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air and brought it close to 1200 ° C, heat production by repeating heating and compression heat recovery + Fully automatic processing with a high temperature heat retention device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 80 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を81段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air and brought it close to 1200 ° C, heat production by repeating heating and compression heat recovery + Fully automatic processing with a high temperature heat retention device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 81 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を82段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed at the corner of the outer casing of the turbine to save and store water + Compressed geothermal heating air and brought it close to 1200 ° C, heat production by repeating heating and compression heat recovery + Fully automatic processing with a high temperature heat retention device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 82 stages or the like and a horizontal axis (1h) provided at a right angle to a rectangular turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を83段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 ° C, repeated heating and heat recovery for another air + Fully automatic processing with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that have the same diameter as the fitting bolts and are driven with 83 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を84段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 ° C, repeated heating and heat recovery for another air + Fully automatic processing with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and 84 stages, etc., with a horizontal axis (1h) provided at a right angle to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を85段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 ° C, repeated heating and heat recovery for another air + Fully automatic processing with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with substantially the same diameter and having 85 stages or the like and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を86段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 ° C, repeated heating and heat recovery for another air + Fully automatic processing with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with almost the same diameter and 86 stages and a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を87段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal air, heated close to 1200 ° C, repeated heating and heat recovery for another air + Fully automatic processing with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 87 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を設けた全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を88段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal heating air, approached to 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing with heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with substantially the same diameter and 88 horizontal stages (1h) having a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を設けた全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を89段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal heating air, approached to 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing with heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 89 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を設けた全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を90段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal heating air, approached to 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing with heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and 90 stages or the like and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を設けた全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を91段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal heating air, approached to 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing with heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with substantially the same diameter and having 91 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を設けた全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を92段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically by providing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + accelerating water downwards + accelerating various battery-powered ships + square pumping device (1J) Installed in the corner of the turbine outer box to save and store water + Compressed geothermal heating air, approached to 1200 degrees, heat production to repeat heating and compression heat recovery + Fully automatic processing with heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with substantially the same diameter and having 92 stages or the like and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を93段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repetitive heat production + Fully automatic processing equipped with a heat retaining device Three stages of turbines that are assembled and driven by fitting bolts with the same diameter and the same shape for each stage are provided in 93 stages and the horizontal axis (1h) is provided at right angles to the square turbine outer box. Various energy storage cycle coalescing engines with a generator and heat pump to drive. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を94段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + Fully automatic machining with heat insulation equipment, with the same diameter and shape of each paragraph, assembling bolts to be assembled and driven with three types of turbines, 94 stages, etc. Driven with a horizontal axis (1h) at right angles to a square turbine outer box Various energy storage cycle coalescing engines equipped with generators and heat pumps. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を95段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + Insulation machine equipped with a heat retention device Fully automatic processing is possible with three stages of turbines that assemble and drive assembly bolts with the same diameter and shape of each paragraph. The horizontal axis (1h) is driven with a square turbine outer box at right angles. Various energy storage cycle coalescing engines equipped with generators and heat pumps. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を96段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + high-temperature heat insulation device equipped with fully automatic machining, with the same diameter and shape of each paragraph as the assembly bolts, 3 types of turbines to be assembled and driven, 96 stages, etc. with horizontal axis (1h) at right angles to square turbine outer box Various energy storage cycle coalescing engines with a generator and heat pump to drive. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)で落差増大+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を97段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + Increase the head with the pumping device (1J) + Install the pumping device (1J) at the corner of the square turbine outer box to save and store the water + Compress the geothermal heating air and bring it close to 1200 degrees to recover the compressed air by heating Repeated heat production + Insulated with heat retention equipment Fully automatic processing is possible with three stages of turbines that drive the assembly of bolts with the same diameter and shape of each paragraph, with 97 stages, etc. Various energy storage cycle coalescing engines with a generator and heat pump to drive. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を98段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and approximately the same shape for every automatic machining, 98 stages, etc. with horizontal axis (1h) at right angles to square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を99段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided with 99 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を100段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and heat pump for driving three-stage turbines that have the same diameter and approximately the same shape for each stage and that can be automatically machined are equipped with 100 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を101段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device Provided with generator and heat pump to drive three types of turbines that have the same diameter and substantially the same shape for each stage and can be assembled into fully automatic machining, with 101 stages, etc. and a horizontal axis (1h) at right angles to a square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を102段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. A generator and a heat pump are installed to drive three types of turbines that have the same diameter and substantially the same shape for each stage and can be assembled fully automatically. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を103段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retention device Assembling bolt assembly drive with almost the same shape for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with 103 stages or the like and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を104段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with 104 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を105段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines with 105 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を106段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it closer to 1200 ° C Heat production that repeats heat and compression heat recovery + Fully automatic processing equipped with high-temperature heat retention device Assembling bolt assembly drive with nearly the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps to drive three types of turbines with 106 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を107段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air, bringing it closer to 1200 degrees, heat production that repeats heating, compression and heat recovery + Fully automatic processing with a heat retention device is possible. Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with 107 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を108段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. A generator and a heat pump are installed to drive three types of turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 108 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box at right angles. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を109段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each of the automatically-processable bolts and are assembled with 109 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を110段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump are provided to drive three types of turbines that are assembled into assembly bolts that have the same diameter and substantially the same shape for each stage and that are driven by 110 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を111段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, with 111 stages, etc. and a horizontal axis (1h) at right angles to the square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を112段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for each stage, 112 stages, etc. with horizontal axis (1h) at right angles to square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を113段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery. + Fully automatic processing equipped with a heat retention device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that have the same diameter and substantially the same shape, and three types of turbines that are assembled and driven with 113 stages and the horizontal axis (1h) at right angles to the square turbine outer box. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を114段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached to 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps with three types of turbines to be assembled and driven with approximately the same diameter, 114 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を115段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 115 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を116段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing the geothermal heating air, approaching 1200 degrees and repeating the heat, compression and heat recovery. + Fully automatic processing equipped with a high temperature heat retaining device. Various types of energy storage cycle coalescence engines equipped with generators and heat pumps with three types of turbines that have the same diameter and substantially the same shape, and three types of turbines that are assembled and driven by 116 bolts and a horizontal axis (1h) that has a square turbine outer box at right angles. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を117段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and save water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, and three types of turbines that drive the assembly of the assembly bolts with 117 stages and the horizontal axis (1h) at right angles to the square turbine outer box. . タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を118段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy conservation cycle coalescing engines equipped with generators and heat pumps that are driven by having 118 types and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を119段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Three types of turbines that can be assembled automatically and fitted with assembly bolts with the same diameter and the same shape for each paragraph so that they can be fully automated Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle of square turbine outer box and 119 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を120段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery from heat and compression + Three types of turbines that are equipped with a heat retaining device and can be assembled automatically and fitted with bolts assembling bolts with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with a generator and heat pump that are driven with a 120-stage horizontal axis (1h) and a rectangular turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を1段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a high-temperature heat retaining device and that can be fully automated and can be assembled to fit bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box with one stage. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を2段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven in two stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を3段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage and are equipped with three horizontal stages (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を4段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage to be automatically machined, with four stages, etc., and a horizontal axis (1h) at a right angle to the rectangular turbine outer box are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を5段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided with five stages, etc., and the horizontal axis (1h) is perpendicular to the rectangular turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を6段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device A generator and heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage in a fully automatic form, with 6 stages, etc., and a horizontal axis (1h) perpendicular to the square turbine outer box are installed. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を7段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage and are equipped with 7 stages, etc., and the horizontal axis (1h) is perpendicular to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を8段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retention device Assembling bolt assembly drive with almost the same shape for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with 8 stages etc. and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を9段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with 9 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を10段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with 10 stages or the like and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を11段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it closer to 1200 ° C Heat production that repeats heat and compression heat recovery + Fully automatic processing equipped with high-temperature heat retention device Assembling bolt assembly drive with nearly the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with 11 stages etc. and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を12段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air, bringing it closer to 1200 degrees, heat production that repeats heating, compression and heat recovery + Fully automatic processing with a heat retention device is possible. Various energy storage cycle coalescing engines equipped with generators and heat pumps to drive three types of turbines with 12 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を13段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. A generator and a heat pump are installed to drive three-stage turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 13 stages, etc., with a horizontal axis (1h) at a right angle to the outer casing of the square turbine. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を14段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump are provided to drive three types of turbines that have the same diameter and substantially the same shape for each stage so that they can be automatically machined, and are equipped with 14 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を15段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and are equipped with 15 bolts and a horizontal axis (1h) at right angles to the square turbine outer box are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を16段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, with 16 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を17段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for each stage, 17 stages, etc. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を18段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery. + Fully automatic processing equipped with a heat retention device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that have three types of turbines with the same diameter and substantially the same shape, and three types of turbines that drive assembly bolts with 18 stages, etc. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を19段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached to 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescence engines equipped with generators and heat pumps with 19 horizontal stages (1h) provided at right angles to the square turbine outer box, and three types of turbines that are assembled to drive assembling bolts with substantially the same diameter. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を20段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that have the same diameter as the fitting bolts and are driven in 20 stages and the horizontal axis (1h) is perpendicular to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を21段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing the geothermal heating air, approaching 1200 degrees and repeating the heat, compression and heat recovery. + Fully automatic processing equipped with a high temperature heat retaining device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, as well as three stages of turbines that are assembled and driven with 21 stages, etc. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を22段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and save water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, as well as three types of turbines to be assembled and driven with 22 stages and the horizontal axis (1h) having a square turbine outer box at right angles . タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を23段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy conservation cycle coalescing engines equipped with generators and heat pumps that are driven with a 23-stage type and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を24段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Three types of turbines that can be assembled automatically and fitted with assembly bolts with the same diameter and the same shape for each paragraph so that they can be fully automated Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) having a right angle in a square turbine outer box and 24 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を25段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery from heat and compression + Three types of turbines that are equipped with a heat retaining device and can be assembled automatically and fitted with bolts assembling bolts with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) having a right angle of square turbine outer box and 25 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を26段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a high-temperature heat retaining device and that can be fully automated and can be assembled to fit bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a 26-stage type and a horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を27段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a 27-stage type and a horizontal axis (1h) perpendicular to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を28段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines to be assembled and assembled with 28 bolts, etc. with a horizontal axis (1h) at right angles to a square-type turbine outer box so that it can be fully automatically machined with the same diameter and shape of each paragraph. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を29段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage and can be automatically machined. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を30段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines, which have the same diameter and substantially the same shape for each stage so that they can be automatically machined, are provided with 30 stages and the horizontal axis (1h) at a right angle to the rectangular turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を31段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 31 stages, etc., with a horizontal axis (1h) at a right angle to the outer casing of the square turbine. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を32段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for each stage, 32 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を33段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retention device Assembling bolt assembly drive with almost the same shape for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps to drive three types of turbines with 33 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を34段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three turbines with 34 stages and the horizontal axis (1h) at right angles to a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を35段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with 35 stages etc. and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を36段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it closer to 1200 ° C Heat production that repeats heat and compression heat recovery + Fully automatic processing equipped with high-temperature heat retention device Assembling bolt assembly drive with nearly the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three types of turbines with 36 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を37段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air, bringing it closer to 1200 degrees, heat production that repeats heating, compression and heat recovery + Fully automatic processing with a heat retention device is possible. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines having 37 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を38段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, with 38 stages and so on, with a horizontal axis (1h) at right angles to a square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を39段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three-stage turbines, which have the same diameter and substantially the same shape for each stage, are equipped with 39 stages, etc., and the horizontal axis (1h) is perpendicular to the square turbine outer box so that it can be automatically processed. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を40段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump are provided to drive three types of turbines that have the same diameter and substantially the same shape for each stage so that they can be machined automatically and have 40 horizontal stages (1h) at the right angle of the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を41段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, with 41 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を42段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. A generator and a heat pump are installed to drive three types of turbines that are assembled with assembling bolts with the same diameter and approximately the same shape for each fully automatic machining, with 42 stages, etc., and a horizontal axis (1h) provided at a right angle to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を43段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing a multi-stage hydrogravity geothermal turbine with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery. + Fully automatic processing equipped with a heat retention device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, assembling bolts for driving and having 43 horizontal stages (1h) with a horizontal axis (1h) at right angles to the square turbine outer box . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を44段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing a multi-stage hydrogravity geothermal turbine with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached to 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 44 stages or the like and a horizontal axis (1h) provided at a right angle to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を45段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing a multi-stage hydrogravity geothermal turbine with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines that are assembled in assembling bolts with approximately the same diameter, 45 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を46段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing a multi-stage hydrogravity geothermal turbine with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing the geothermal heating air, approaching 1200 degrees and repeating the heat, compression and heat recovery. + Fully automatic processing equipped with a high temperature heat retaining device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, and three types of turbines to be assembled and driven with 46 stages and the horizontal axis (1h) at right angles to the square turbine outer box . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を47段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and save water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that have three types of turbines with the same diameter and substantially the same shape, and are fitted with 47 types of turbines that drive the assembly of bolts and a horizontal axis (1h) with a square turbine outer box at right angles. . タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を48段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle of square turbine outer box and 48 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を49段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Three types of turbines that can be assembled automatically and fitted with assembly bolts with the same diameter and the same shape for each paragraph so that they can be fully automated Various energy storage cycle coalescing engines equipped with a generator and a heat pump that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を50段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery from heat and compression + Three types of turbines that are equipped with a heat retaining device and can be assembled automatically and fitted with bolts assembling bolts with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at a right angle and a square turbine outer box at 50 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を51段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a high-temperature heat retaining device and that can be fully automated and can be assembled to fit bolts with the same diameter and shape of each paragraph Various energy conservation cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box with 51 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を52段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having a horizontal axis (1h) at right angles to a square turbine outer box with 52 types. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を53段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. A generator and a heat pump are provided to drive three-stage turbines with the same diameter and approximately the same shape for each fully-automated machining, with 53 stages, etc., and a horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を54段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and are equipped with 54 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box are provided. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を55段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage to be automatically machined and equipped with 55 stages, etc., with a horizontal axis (1h) perpendicular to a rectangular turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を56段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device A generator and a heat pump are provided to drive three-stage turbines with the same diameter and substantially the same shape for each fully-automatic machining, with 56 stages, etc., and a horizontal axis (1h) provided at right angles to a square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を57段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for full automatic machining, 57 stages etc. with horizontal axis (1h) at right angles to square turbine outer box Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を58段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retention device Assembling bolt assembly drive with almost the same shape for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three turbines with 58 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を59段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + compressing geothermal heating air and bringing it closer to 1200 degrees Heat production by repeating heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy conservation cycle coalescing engines equipped with generators and heat pumps that are driven by three types of turbines with 59 stages or the like and a horizontal axis (1h) having a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を60段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air and bringing it closer to 1200 degrees Heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Assemble and drive assembly bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with three types of turbines with 60 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を61段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Preserving ascending + Compressing geothermal heating air and bringing it closer to 1200 ° C Heat production that repeats heat and compression heat recovery + Fully automatic processing equipped with high-temperature heat retention device Assembling bolt assembly drive with nearly the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that drive three turbines with 61 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電出力発生タービン翼を全部にする設備方法+工場電化全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を62段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times hydrogravity geothermal power generation generating equipment method to make all turbine blades + factory electrification prime + pumping device (1J) installed at corner of square turbine outer box Ascending and storing + Compressing geothermal heating air, bringing it closer to 1200 degrees, heat production that repeats heating, compression and heat recovery + Fully automatic processing with a heat retention device is possible. Various energy storage cycle coalescence engines equipped with generators and heat pumps that drive three turbines with 62 stages and the horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を63段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store the water in a rising manner. + The heat of the geothermal heating is compressed and heated to 1200 degrees. A generator and a heat pump are installed to drive three-stage turbines with the same diameter and approximately the same shape for each fully automatic machining. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を64段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water + heat production that compresses geothermal heating air, approaches 1200 degrees and repeats heat recovery by heating, compression, heat recovery A generator and a heat pump are provided that are driven by three types of turbines that are assembled with assembling bolts with the same diameter and substantially the same shape for each stage so that they can be automatically machined. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を65段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to save and store water. + Heat production by compressing geothermal heating air and approaching 1200 degrees by repeating heating and heat recovery. A generator and a heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage and that can be automatically machined are provided with 65 stages and the horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を66段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 ° C and repeating heat recovery by heating and compression heat recovery + High temperature insulation device A generator and a heat pump are provided to drive three types of turbines that have the same diameter and substantially the same shape for each stage and are equipped with 66 bolts and a horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を垂直下方に加速する構造や方法+温熱や冷熱利用全盛にする+地熱空気加熱器で地熱を集める+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を67段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method for accelerating water vertically by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross-section (4X) of 2 to 26 times + making heat and cold use prime + collecting geothermal heat with a geothermal air heater + A pumping device (1J) is installed at the corner of the square turbine outer box to store and save water. + Heat production by compressing geothermal heating air, approaching 1200 degrees, and repeating heat recovery by heating and compression. A generator and a heat pump are provided to drive three types of turbines that have the same diameter and approximately the same shape for each stage and are equipped with 67 bolts, etc., with a horizontal axis (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を68段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery. + Fully automatic processing equipped with a heat retention device. Various types of energy storage cycle coalescence engines equipped with generators and heat pumps that have three types of turbines with the same diameter and substantially the same shape and are fitted with 68 stages, etc., and a horizontal axis (1h) with a square turbine outer box at right angles. . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を69段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Compressed air for geothermal heating, approached to 1200 degrees, heat production that repeats heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and having 69 stages or the like and a horizontal axis (1h) with a square turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を70段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and store water + Heat production by compressing geothermal heating air, approaching 1200 degrees and repeating heat and compression heat recovery + Fully automatic processing equipped with a heat retaining device Same for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines that are assembled in assembling bolts with approximately the same diameter and 70 stages or the like and a horizontal axis (1h) having a rectangular turbine outer box at right angles. タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を71段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Water is stored and stored at the corner of the outer casing of the type turbine. + Heat production by compressing the geothermal heating air, approaching 1200 degrees and repeating the heat, compression and heat recovery. + Fully automatic processing equipped with a high temperature heat retaining device. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having three types of turbines with the same diameter and substantially the same shape, assembling bolts and driving with 71 stages and the horizontal axis (1h) having a square turbine outer box at right angles . タービン翼断面(4X)を2〜26倍の水重力地熱発電タービンを多段に設けて水を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を72段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   A structure and method of accelerating water vertically downward in a heat retaining turbine by installing multiple stages of hydrogravity geothermal turbines with a turbine blade cross section (4X) of 2 to 26 times + cornering of a fully electrified house + pumping device (1J) Installed in the corner of the outer casing of the type turbine to save and save water + Compressed geothermal heating air, approached 1200 degrees, heat production repeated heating and compression heat recovery + Fully automatic processing equipped with a heat retaining device for each paragraph Various types of energy storage cycle coalescence engines equipped with generators and heat pumps that are driven with three types of turbines with the same diameter and substantially the same shape, and three types of turbines that are assembled and driven with 72 stages and the horizontal axis (1h) at right angles to the square turbine outer box. . タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を73段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy conservation cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box with 73 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を74段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C and repeating heat and compression heat recovery + Three types of turbines that can be assembled automatically and fitted with assembly bolts with the same diameter and the same shape for each paragraph so that they can be fully automated Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box in 74 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を75段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat recovery from heat and compression + Three types of turbines that are equipped with a heat retaining device and can be assembled automatically and fitted with bolts assembling bolts with the same diameter for each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) having a right angle on the square turbine outer box and 75 stages. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+高温保温装置具備した全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を76段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production that compresses geothermal heating air and brings it close to 1200 degrees and repeats heat and compression heat recovery + Turbine 3 that is equipped with a high-temperature heat retaining device and that can be fully automated and can be assembled to fit bolts with the same diameter and shape of each paragraph Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven with a horizontal axis (1h) at right angles to a square turbine outer box with 76 stages and so on. タービン翼断面(4X)を2〜26倍の水重力地熱発電の構造や方法+蓄電池駆動各種自動車類全盛にする+揚水装置(1J)を角型タービン外箱角部に設け水を上昇保存する+地熱加熱の空気を圧縮して1200度に近付け別空気を加熱圧縮熱回収を繰り返す熱製造+保温装置を具備の全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を77段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   The structure and method of hydrogravity geothermal power generation with a turbine blade cross section (4X) of 2 to 26 times + accelerating storage battery-driven various automobiles + A pumping device (1J) is installed at the corner of the square turbine outer box to store and store water + Heat production by compressing geothermal heating air and bringing it close to 1200 ° C, and repeating heat and compression heat recovery + Turbine 3 that is equipped with a heat retaining device and can be fully automated and can be assembled and fitted with fitting bolts with the same diameter and shape. Various energy storage cycle coalescing engines equipped with generators and heat pumps that are driven by having 77 types and a horizontal axis (1h) at right angles to the square turbine outer box. タービン翼断面(4X)を2〜26倍に設けて重力加速部(1g)を具備した夫々の交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines in which the turbine blade cross section (4X) is provided 2 to 26 times and each alternately rotating heat retaining turbine equipped with a gravity acceleration section (1 g) is driven by geothermal power generation with water. タービン翼断面(4X)を2倍に設けて重力加速部(1g)を具備した夫々の交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines in which each alternately rotating thermal insulation turbine provided with a turbine blade cross section (4X) and having a gravitational acceleration section (1 g) is driven by water to generate geothermal power. タービン翼断面(4X)を3倍に設けて重力加速部(1g)を具備した夫々の交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines in which each alternately rotating heat retaining turbine provided with a three-fold turbine blade cross section (4X) and equipped with a gravity acceleration section (1 g) is driven by water for geothermal power generation. タービン翼断面(4X)を4倍に設けて重力加速部(1g)を具備した夫々の交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines in which each alternately rotating thermal insulation turbine provided with a four-fold turbine blade cross section (4X) and having a gravity acceleration section (1 g) is driven by water to generate geothermal power. タービン翼断面(4X)を5倍に設けて重力加速部(1g)を具備した夫々の交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines in which each alternately rotating heat retaining turbine provided with a five-fold turbine blade cross section (4X) and having a gravity acceleration section (1 g) is driven by water to generate geothermal power. タービン翼断面(4X)を6倍に設けて重力加速部(1g)を具備した夫々の交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines that use 6 times the turbine blade cross section (4X) and have a gravity acceleration unit (1 g) and each alternately rotating heat retaining turbine driven by water to drive geothermal power generation. タービン翼断面(4X)を7倍に設けて重力加速部(1g)を具備した夫々の交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines in which the turbine blade cross section (4X) is provided seven times, and each alternately rotating heat retaining turbine equipped with a gravity acceleration section (1 g) is driven by water to generate geothermal power. タービン翼断面(4X)を8倍に設けて重力加速部(1g)を具備した夫々の交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines in which each alternately rotating thermal insulation turbine provided with a turbine blade cross section (4X) 8 times and having a gravity acceleration section (1 g) is driven by water to generate geothermal power. タービン翼断面(4X)を9倍に設けて重力加速部(1g)を具備した夫々の交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines in which the turbine blade cross section (4X) is provided 9 times and each alternately rotating heat retaining turbine equipped with a gravitational acceleration section (1 g) is driven by water for geothermal power generation. タービン翼断面(4X)を10倍に設けて重力加速部(1g)を具備した夫々の交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines in which each alternately rotating thermal insulation turbine having a turbine blade cross section (4X) 10 times and having a gravitational acceleration section (1 g) is driven by water to generate geothermal power. タービン翼断面(4X)を11倍に設けて重力加速部(1g)を具備した夫々の交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines in which the turbine blade cross section (4X) is provided 11 times and each alternately rotating heat retaining turbine equipped with a gravity acceleration section (1 g) is driven by water to generate geothermal power. タービン翼断面(4X)を12倍に設けて重力加速部(1g)を具備した夫々の交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines in which each alternately rotating thermal insulation turbine provided with a 12 times turbine blade cross section (4X) and equipped with a gravitational acceleration section (1 g) is driven by water to generate geothermal power. タービン翼断面(4X)を13倍に設けて重力加速部(1g)を具備した夫々の交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines in which each alternately rotating heat-retaining turbine provided with a 13-times turbine blade cross section (4X) and having a gravity acceleration section (1 g) is driven by water to generate geothermal power. タービン翼断面(4X)を14倍に設けて重力加速部(1g)を具備した夫々の交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines in which each alternately rotating heat retaining turbine provided with a 14-times turbine blade cross section (4X) and equipped with a gravity acceleration section (1 g) is driven by water for geothermal power generation. タービン翼断面(4X)を15倍に設けて重力加速部(1g)を具備した夫々の交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines in which each alternately rotating heat retaining turbine provided with a 15-fold turbine blade cross section (4X) and having a gravity acceleration section (1 g) is driven by water to generate geothermal power. タービン翼断面(4X)を16倍に設けて重力加速部(1g)を具備した夫々の交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines in which the turbine blade cross section (4X) is provided 16 times, and each alternately rotating heat retaining turbine equipped with a gravitational acceleration section (1 g) is driven by water to generate geothermal power. タービン翼断面(4X)を17倍に設けて重力加速部(1g)を具備した夫々の交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines in which each alternately rotating heat retaining turbine provided with a gravity acceleration part (1 g) having a turbine blade cross section (4X) 17 times and driven by water is driven geothermal power generation. タービン翼断面(4X)を18倍に設けて重力加速部(1g)を具備した夫々の交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines in which the turbine blade cross section (4X) is provided 18 times and each alternately rotating heat retaining turbine equipped with a gravity acceleration section (1 g) is driven by geothermal power generation with water. タービン翼断面(4X)を19倍に設けて重力加速部(1g)を具備した夫々の交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines in which each alternately rotating heat retaining turbine provided with a 19-times turbine blade cross section (4X) and having a gravity acceleration section (1 g) is driven by water to generate geothermal power. タービン翼断面(4X)を20倍に設けて重力加速部(1g)を具備した夫々の交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines in which the turbine blade cross section (4X) is provided 20 times and each alternately rotating heat retaining turbine equipped with a gravity acceleration section (1 g) is driven by water to generate geothermal power. タービン翼断面(4X)を21倍に設けて重力加速部(1g)を具備した夫々の交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines in which each alternately rotating thermal insulation turbine having a turbine blade cross section (4X) 21 times and having a gravity acceleration section (1 g) is driven by water to generate geothermal power. タービン翼断面(4X)を22倍に設けて重力加速部(1g)を具備した夫々の交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines in which the turbine blade cross section (4X) is provided 22 times and each alternately rotating heat retaining turbine equipped with a gravity acceleration part (1 g) is driven by water to generate geothermal power. タービン翼断面(4X)を23倍に設けて重力加速部(1g)を具備した夫々の交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines in which the turbine blade cross section (4X) is provided 23 times and each alternately rotating heat retaining turbine equipped with a gravity acceleration part (1 g) is driven by geothermal power generation with water. タービン翼断面(4X)を24倍に設けて重力加速部(1g)を具備した夫々の交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines in which the turbine blade cross section (4X) is provided 24 times and each alternately rotating heat-retaining turbine equipped with a gravity acceleration section (1 g) is driven by water to generate geothermal power. タービン翼断面(4X)を25倍に設けて重力加速部(1g)を具備した夫々の交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines in which each alternately rotating thermal insulation turbine provided with a turbine blade cross section (4X) 25 times and equipped with a gravity acceleration section (1 g) is driven by water to generate geothermal power. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を103段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive three types of turbines that have the same diameter and almost the same shape for each paragraph and can be assembled fully automatically, with 103 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を104段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled and fitted assembling bolts with the same diameter and almost the same shape for every automatic machining, 104 stages etc. with horizontal axis (1h) right angled square turbine outer box Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を105段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are installed to drive three-stage turbines with the same diameter and approximately the same shape for each fully-automated machining, with 105 stages, etc., and a horizontal axis (1h) perpendicular to the square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を106段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are installed to drive three types of turbines that have the same diameter and substantially the same shape for each stage so that they can be fully automatically machined. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を107段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines that have the same diameter and almost the same shape for each stage and can be fully automated, and have 107 horizontal stages (1h) at right angles to the square turbine outer box. Various energy conservation cycle coalescence engine. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を108段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are installed to drive three types of turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 108 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box at right angles. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を109段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are provided that are driven by three types of turbines that are assembled into assembly bolts for assembly and assembly with 109 stages, etc., with a horizontal axis (1h) at a right angle to the outer casing of the square turbine so that it can be fully automated. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を110段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are installed to drive three-stage turbines that have the same diameter and substantially the same shape for each stage, 110 stages, etc., and the horizontal axis (1h) is perpendicular to the square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を111段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, with 111 stages, etc. and a horizontal axis (1h) at right angles to the square turbine outer box Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を112段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for each stage, 112 stages, etc. with horizontal axis (1h) at right angles to square turbine outer box Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を113段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines that have the same diameter and almost the same shape for each stage, and have 113 stages, etc., with a horizontal axis (1h) at right angles to the square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を114段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are installed to drive three types of turbines that have the same diameter and substantially the same shape for each stage and are equipped with 114 bolts and a horizontal axis (1h) at right angles to the square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を115段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are installed to drive three types of turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 115 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box at right angles. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を116段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are provided to drive the three types of turbines that have the same diameter and substantially the same shape for each stage and are equipped with 116 bolts and a horizontal axis (1h) at right angles to the square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を117段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are installed to drive three-stage turbines with the same diameter and approximately the same shape for each fully-automated machining, with 117 stages, etc., equipped with a horizontal axis (1h) at right angles to the square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を118段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines that have the same diameter and almost the same shape for each stage, 118 stages, etc., and the horizontal axis (1h) is perpendicular to the square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を119段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are installed to drive three types of turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 119 stages and a horizontal axis (1h) at a right angle to the outer casing of the square turbine. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を120段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are installed to drive three-stage turbines with the same diameter and approximately the same shape for each fully-automated machining. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を1段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage so that they can be fully automatically machined. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を2段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage so that they can be fully automatically machined. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を3段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage and are equipped with three horizontal stages (1h) at right angles to the square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を4段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive three types of turbines that are assembled with assembling bolts with the same diameter and the same shape for each stage in 4 stages, etc. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を5段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are installed to drive three-stage turbines that have the same diameter and substantially the same shape for each stage, and are equipped with five stages, etc., and a horizontal axis (1h) at a right angle to the square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を6段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and heat pump for driving three-stage turbines that have the same diameter and substantially the same shape for each stage in a fully automatic form, with 6 stages, etc., and a horizontal axis (1h) perpendicular to the square turbine outer box are installed. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を7段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage and are equipped with 7 stages, etc., and the horizontal axis (1h) is perpendicular to the square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を8段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Equipped with generators and heat pumps that are driven by three-stage turbines that have the same diameter and substantially the same shape for each stage and are equipped with 8 stages of horizontal bolts (1h) at right angles to the square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を9段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 9 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を10段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines that have the same diameter and almost the same shape for each stage and can be assembled fully automatically, with 10 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を11段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines that have the same diameter and almost the same shape for each stage, 11 stages, etc. and the horizontal axis (1h) is perpendicular to the square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を12段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled and fitted assembling bolts with the same diameter and almost the same shape for each stage in 12 stages, etc. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を13段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are installed to drive three-stage turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 13 stages, etc., with a horizontal axis (1h) at a right angle to the outer casing of the square turbine. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を14段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, 14 stages, etc., with horizontal axis (1h) at right angle to square turbine outer box Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を15段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are provided to drive three-stage turbines with the same diameter and substantially the same shape for each fully-automatic machining, with 15 stages, etc., and a horizontal axis (1h) perpendicular to the square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を16段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, with 16 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を17段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for each stage, 17 stages, etc. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を18段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, 18 stages, etc. with horizontal axis (1h) at right angle to square turbine outer box Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を19段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 19 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box at right angles. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を20段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled and assembled with 20 bolts, etc., with a horizontal axis (1h) at right angles to a square turbine outer box, with the same diameter and shape of each paragraph so that it can be fully automated. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を21段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled and fitted with bolts assembled to the same diameter and almost the same shape for each stage in 21 stages, etc. with horizontal axis (1h) at right angles to square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を22段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are provided to drive three types of turbines that are assembled in assembling bolts with the same diameter and substantially the same shape for each stage so that they can be fully automatically machined. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を23段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, with 23 stages, etc. and a horizontal axis (1h) at right angles to the square turbine outer box Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を24段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for each stage, 24 stages, etc. with horizontal axis (1h) at right angles to square turbine outer box Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を25段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and the same shape for every automatic machining, with 25 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を26段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 26 stages, etc., with a horizontal axis (1h) at a right angle to the square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を27段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled and assembled with bolts assembled to the same diameter and shape of the same diameter for each stage in 27 steps, etc. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を28段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled and assembled with 28 bolts, etc. with a horizontal axis (1h) at right angles to a square-type turbine outer box so that it can be fully automatically machined with the same diameter and shape of each paragraph. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を29段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for each stage with 29 stages, etc. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を30段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and approximately the same shape for each stage, 30 stages, etc. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を31段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 31 stages, etc., with a horizontal axis (1h) at a right angle to the outer casing of the square turbine. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を32段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for each stage, 32 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を33段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, with 33 stages, etc. and a horizontal axis (1h) at right angles to a square turbine outer box Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を34段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are provided to drive the three types of turbines that have the same diameter and substantially the same shape for each stage and are equipped with 34 bolts and a horizontal axis (1h) at right angles to the square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を35段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines, which have the same diameter and almost the same shape for each stage, and 35 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を36段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 36 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box at right angles. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を37段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for each stage, 37 stages, etc. with horizontal axis (1h) at right angle to square turbine outer box Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を38段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, with 38 stages and so on, with a horizontal axis (1h) at right angles to a square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を39段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines, which have the same diameter and almost the same shape for each paragraph, and 39 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box at right angles. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を40段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are provided to drive a fully-automatically machined three-stage turbine with the same diameter and the same shape for each stage with 40 horizontal stages (1h) and a rectangular turbine outer box at right angles. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を41段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, with 41 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を42段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are installed to drive three types of turbines that are assembled with assembling bolts with the same diameter and approximately the same shape for each fully automatic machining, with 42 stages, etc., and a horizontal axis (1h) provided at a right angle to the square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を43段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, with 43 stages and so on, with a horizontal axis (1h) at right angles to the square turbine outer box Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を44段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines that have the same diameter and almost the same shape in each paragraph and can be fully automated, with 44 stages, etc., and a horizontal axis (1h) perpendicular to the square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を45段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are installed to drive three types of turbines that have the same diameter and approximately the same shape for each stage and are equipped with 45 bolts and a horizontal axis (1h) at right angles to the square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を46段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines that have the same diameter and same shape for each paragraph and can be assembled fully automatically. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を47段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines that have the same diameter and almost the same shape for each stage and are equipped with 47 bolts, etc. with a horizontal axis (1h) at right angles to the square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を48段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and approximately the same shape for each stage, with 48 stages, etc., with a horizontal axis (1h) at right angles to the square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を49段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines that have the same diameter and same shape for each stage, and have 49 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を50段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are installed to drive three-stage turbines with the same diameter and approximately the same shape for each fully-automated machining, with 50 stages, etc., and a horizontal axis (1h) perpendicular to the square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を51段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines, which have the same diameter and same shape for each paragraph, and 51 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を52段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, with 52 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を53段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are provided to drive three-stage turbines with the same diameter and approximately the same shape for each fully-automated machining, with 53 stages, etc., and a horizontal axis (1h) at right angles to the square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を54段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and the same shape for full automatic machining, with 54 stages etc. and a horizontal axis (1h) at right angles to a square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を55段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for fully automatic machining, with 55 stages and so on, with the horizontal axis (1h) at right angles to the square turbine outer box Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を56段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are provided to drive three-stage turbines with the same diameter and substantially the same shape for each fully-automatic machining, with 56 stages, etc., and a horizontal axis (1h) provided at right angles to a square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を57段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for full automatic machining, 57 stages etc. with horizontal axis (1h) at right angles to square turbine outer box Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を58段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for each fully automatic machining, with 58 stages and so on. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を59段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are installed to drive three-stage turbines with the same diameter and approximately the same shape for each fully-automatic machining, with 59 stages, etc., and a horizontal axis (1h) at right angles to a square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を60段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for each fully automatic machining, with 60 stages and so on, with the horizontal axis (1h) at right angles to the square turbine outer box Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を61段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each fully automatic machining, with 61 stages, etc., and a horizontal axis (1h) perpendicular to the square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を62段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are installed to drive three-stage turbines with the same diameter and approximately the same shape for each fully-automated process, and to drive three bolts with 62 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を63段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are installed to drive three-stage turbines with the same diameter and approximately the same shape for each fully automatic machining. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を64段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and approximately the same shape for every automatic machining, 64 stages etc. with horizontal axis (1h) at right angles to square turbine outer box Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を65段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are provided to drive three types of turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 65 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box at right angles. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を66段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are provided to drive three types of turbines that have the same diameter and substantially the same shape for each stage and are equipped with 66 bolts and a horizontal axis (1h) at right angles to the square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を67段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are provided to drive three types of turbines that have the same diameter and approximately the same shape for each stage and are equipped with 67 bolts, etc., with a horizontal axis (1h) at right angles to the square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を68段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are provided that are driven by three-stage turbines with 68-stage horizontal shafts (1h) at right angles to a square-shaped turbine outer box so that they can be fully automated and processed with the same diameter and shape of each paragraph. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を69段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are provided that are driven by three-stage turbines with 69-stage horizontal shafts (1h) at right angles to a square turbine outer box that can be assembled into a fully-automatically machined form with the same diameter and shape. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を70段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are installed to drive three types of turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 70 stages, etc., with a horizontal axis (1h) perpendicular to the rectangular turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を71段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are provided to drive three types of turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 71 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box at right angles. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を72段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are provided that are driven by three types of turbines that are assembled in assembling bolts with the same diameter and substantially the same shape for each stage and are equipped with 72 stages, etc., with a horizontal axis (1h) at right angles to the square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を73段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled and fitted with assembly bolts with the same diameter and almost the same shape for full automatic machining, with 73 stages and so on, with a horizontal axis (1h) at right angles to the square turbine outer box Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を74段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are provided to drive three types of turbines that are assembled with the same diameter and shape with the same diameter for each paragraph and are equipped with 74 stages, etc., with a horizontal axis (1h) at a right angle to the square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を75段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled and fitted with assembling bolts with the same diameter and the same shape for every automatic machining, with 75 stages, etc., with the horizontal axis (1h) at right angles to the square turbine outer box Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を76段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for full automatic machining, 76 stages etc. with horizontal axis (1h) right angled square turbine outer box Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を77段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled and fitted with assembly bolts with the same diameter and almost the same shape for every automatic machining, 77 stages, etc. with horizontal axis (1h) at right angles to square turbine outer box Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を78段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, 78 stages, etc. with horizontal axis (1h) at right angle to square turbine outer box Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を79段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are provided that are driven by three-stage turbines with 79 stages, etc. with a horizontal axis (1h) at a right angle to the rectangular outer casing box, so that they can be fully automated and machined with the same diameter and shape of each paragraph. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を80段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, 80 stages etc. with horizontal axis (1h) at right angles to square turbine outer box Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を81段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, 81 stages etc. with horizontal axis (1h) at right angle to square turbine outer box Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を82段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are installed to drive three types of turbines that have the same diameter and substantially the same shape for each stage, and are equipped with 82 stages, etc., with a horizontal axis (1h) at a right angle to the square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を83段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, 83 stages, etc. with horizontal axis (1h) right angled square turbine outer box Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を84段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive three types of turbines that have the same diameter and almost the same shape for each stage and are equipped with 84 types of turbines and a horizontal axis (1h) at right angles to the square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を85段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines that have the same diameter and almost the same shape in each paragraph and can be fully automatic machined. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を86段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are installed to drive three types of turbines that have the same diameter and substantially the same shape for each stage and are equipped with 86 bolts and a horizontal axis (1h) with a rectangular turbine outer box at right angles. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を87段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for full automatic machining, with 87 stages etc. and a horizontal axis (1h) at right angles to a square turbine outer box Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を88段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, 88 stages etc. with horizontal axis (1h) at right angle to square turbine outer box Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を89段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and almost the same shape for every automatic machining, with 89 stages and so on, with a horizontal axis (1h) at right angles to a square turbine outer box Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を90段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are provided to drive three-stage turbines that have the same diameter and substantially the same shape for each stage and 90 stages, etc., with a horizontal axis (1h) at a right angle to the square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を91段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled and fitted with assembly bolts with the same diameter and almost the same shape for every automatic machining, with 91 stages, etc., with a horizontal axis (1h) at right angles to the square turbine outer box Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を92段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are provided that are driven by three-stage turbines that have the same diameter and substantially the same shape for each stage and are equipped with 92 stages, etc., with a horizontal axis (1h) at a right angle to the rectangular outer casing. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を93段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are installed that are equipped with three types of turbines that can be assembled and assembled with the same diameter and approximately the same shape for each stage, with 93 stages, etc. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を94段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are installed to drive three types of turbines that have the same diameter and substantially the same shape for each stage and are equipped with 94 bolts and a horizontal axis (1h) at right angles to the square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を95段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are installed to drive three-stage turbines that have the same diameter and substantially the same shape for each stage and are equipped with 95 stages, etc., with a horizontal axis (1h) perpendicular to the square turbine outer box at right angles. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を96段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are provided to drive the three-stage turbine with 96 stages, etc., with a horizontal axis (1h) at right angles to a square turbine outer box so that it can be fully automatically machined with the same diameter and shape as each paragraph. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を97段等に横軸(h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are provided to drive the three-stage turbines that have the same diameter and substantially the same shape for each stage and are equipped with 97 stages, etc., with a horizontal axis (h) perpendicular to the square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を98段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and approximately the same shape for every automatic machining, 98 stages, etc. with horizontal axis (1h) at right angles to square turbine outer box Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を99段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive 3 types of turbines to be assembled with assembly bolts with the same diameter and approximately the same shape for full automatic machining, 99 stages etc. with horizontal axis (1h) at right angles to square turbine outer box Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を100段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are installed to drive three-stage turbines that have the same diameter and substantially the same shape for each fully-automated machining, with 100 stages, etc., and a horizontal axis (1h) perpendicular to the square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を101段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   Provided with generator and heat pump to drive three types of turbines that have the same diameter and substantially the same shape for each stage and can be assembled into fully automatic machining, with 101 stages, etc. and a horizontal axis (1h) at right angles to a square turbine outer box. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation. 全自動加工可能に段落毎同径略同形として嵌合ボルト組立駆動するタービン3種類を102段等に横軸(1h)を角型タービン外箱直角具備して駆動する発電機や熱ポンプを設けた交互回転保温タービンを水で駆動地熱発電にする各種エネルギ保存サイクル合体機関。   A generator and a heat pump are installed to drive three types of turbines that have the same diameter and substantially the same shape for each stage and can be assembled fully automatically. Combined engine with various energy storage cycles that uses a rotating geothermal turbine with water to drive geothermal power generation.
JP2009113235A 2009-05-08 2009-05-08 Various energy conservation cycle combined engine Pending JP2010275858A (en)

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